Linear analysis of a swirling jet with a realistic swirler model

IF 1.4 4区 工程技术 Q3 ENGINEERING, MECHANICAL
Grégoire Varillon, Thomas Ludwig Kaiser, Philipp Brokof, Kilian Oberleithner, Wolfgang Polifke
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引用次数: 0

Abstract

The dynamics of an axisymmetrical swirling jet is studied via global linear stability and resolvent analyses. The modeled flow represents a combustor-like swirling jet, that is turbulent, compressible, non-parallel, and enclosed. In particular, the computational domain embeds a realistic axisymmetrical swirler model to resolve the mode conversion process. Swirl fluctuations are non-negligible on this configuration representative of a swirl burner, and match the analytical mode shapes of inertial waves of an inviscid uniform flow as obtained from global stability analysis. The stability map presents two eigenvalues driving a modal amplification. These eigenmodes couple a standing acoustic wave sustained in the mixing duct and the combustion chamber with the Kelvin-Helmholtz mechanism at the mixing duct exit and the acoustic-vorticity mode conversion process at the swirler, and act as a frequency selection criterion. Finally, the most amplified forcing from the resolvent analysis is similar to an unsteady heat source in the combustion chamber, and the identified optimal amplification mechanism is likely to be triggered in reacting flow with unsteady heat release rate.
利用逼真的漩涡模型对漩涡射流进行线性分析
通过全局线性稳定性和解析分析研究了轴对称漩涡射流的动力学。模型流代表了一种类似于燃烧器的漩涡喷流,它是湍流、可压缩、非平行和封闭的。特别是,计算域嵌入了一个现实的轴对称漩涡模型,以解决模式转换过程。在这个代表漩涡燃烧器的配置上,漩涡波动是不可忽略的,并且与全局稳定性分析得到的无粘性均匀流惯性波的分析模式形状相匹配。稳定性图显示了两个驱动模态放大的特征值。这些特征模态将混合管道和燃烧室中持续存在的驻留声波与混合管道出口处的开尔文-赫尔姆霍兹机制以及漩涡器处的声涡度模态转换过程耦合在一起,并作为频率选择标准。最后,通过解析力分析得出的最大放大强迫类似于燃烧室中的非稳定热源,所确定的最佳放大机制可能会在具有非稳定热释放率的反应流中触发。
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来源期刊
International Journal of Spray and Combustion Dynamics
International Journal of Spray and Combustion Dynamics THERMODYNAMICS-ENGINEERING, MECHANICAL
CiteScore
2.20
自引率
12.50%
发文量
21
审稿时长
>12 weeks
期刊介绍: International Journal of Spray and Combustion Dynamics is a peer-reviewed open access journal on fundamental and applied research in combustion and spray dynamics. Fundamental topics include advances in understanding unsteady combustion, combustion instability and noise, flame-acoustic interaction and its active and passive control, duct acoustics...
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