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Proceedings/Recueil Des Communications ASME Turbo Expo 2015: Turbine Technical Conference and Exposition Année : 2015

Determination of Criteria for Flame Stability in an Annular Trapped Vortex Combustor

Résumé

Development of lean premixed (LP) combustion is still a challenge as it results in considerable constraints for the combustor design. Indeed, new combustors using LP combustion are more prone to flashback, blow-off or even thermo-acoustic instabilities. A detailed understanding of mechanisms leading to such extreme conditions is then crucial to reduce pollutant emissions, widen the range of operating conditions, and reduce design time. This paper reports the experimental study of an innovative LP trapped vortex combustor (TVC). The TVC concept uses a recirculating rich flow trapped in a cavity to create a stable flame that continuously ignites a main lean mixture passing above the cavity. This concept gave promising performances but some workers highlighted the existence of combustion instabilities for some operating conditions. Detailed studies have therefore been carried out in order to understand the occurrence of these drastic operating conditions. Results showed that the cavity flow dynamics in conjunction with the location of the interfacial mixing zone (between the cavity and the mainstream) were the driving forces to obtain stable combustion regimes. The goal of this work has been to take advantage of these detailed recommendations to determine stability maps, trends, and dimensionless parameters which could be easily used as early design rules. For this reason, the study introduced a simple and robust criterion, based on the global pressure fluctuation energy. The latter was used to distinguish stable and unstable modes. An aerodynamic momentum flux ratio and a chemical stratification ratio (taken between the cavity and the mainstream) were defined to scale all measurements. Results indicated that the mainstream velocity was critically important to confine the cavity and to prevent combustion instabilities. Remarkably, this trend was verified and even more pronounced for larger cavity powers. In addition, flame stabilization above the cavity resulted in the existence of specific stratification ratios, in order to obtain a soft gradient of gas composition between the rich and lean regions. Finally, a linear relation between the mainstream and cavity velocities became apparent, thereby making possible to simply predict the combustor stability.
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  • HAL Id : hal-02051952 , version 1

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Pradip Xavier, Mickael Pires, Alexis Vandel, Bruno Renou, Gilles Cabot, et al.. Determination of Criteria for Flame Stability in an Annular Trapped Vortex Combustor. ASME Turbo Expo 2015: Turbine Technical Conference and Exposition, 4B (GT2015-43214), ASME, pp.V04BT04A012, 2015, Combustion, Fuels and Emissions, 978-0-7918-5669-7. ⟨hal-02051952⟩
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