航空学报2025,Vol.46Issue(18):81-96,16.DOI:10.7527/S1000-6893.2025.31843
多喷嘴燃烧室三维热声不稳定性分析
Three-dimensional thermoacoustic instability analysis in a multi-nozzle combustor
摘要
Abstract
Thermoacoustic instability poses a significant challenge to the operational safety and stability of multi-nozzle combustors in both aero-engines and industrial gas turbines.To achieve a comprehensive understanding and effective control of this phenomenon,this paper employs a three-dimensional Green's function method to characterize the geo-metric and thermal response differences among multiple nozzles,aiming to reveal the key parameters influencing three-dimensional thermoacoustic instability and the control effects of combining different types of nozzles.The study focuses on analyzing the impact of the average temperature of the combustion chamber,axial length of nozzles,and inlet boundary conditions of nozzles on the azimuthal,radial,and axial modal thermoacoustic instability.The results indicate that when the axial length of nozzles approximates an odd multiple of a quarter wavelength,the thermoacous-tic instability evolves gradually;in contrast,when the length approaches an integer multiple of a half wavelength,an abrupt shift in the instability state occurs.Moreover,the inlet boundary conditions of nozzles affect the stability of ther-moacoustic modes by altering the acoustic energy dissipation at the inlet and the phase difference between sound pressure and unsteady heat release rate.By leveraging the identified patterns of key parameters,adjusting the geo-metric structure and heat source response of some nozzles can effectively control three-dimensional unstable modes.Moreover,coordinated adjustments of multiple parameters can significantly enhance the control of first-order axial mode thermoacoustic instability across a broader parameter spectrum.关键词
多喷嘴燃烧室/热声不稳定性/三维理论模型/喷嘴轴向长度/边界条件Key words
multi-nozzle combustor/thermoacoustic instability/three-dimensional theoretical model/axial length of nozzles/boundary conditions分类
航空航天引用本文复制引用
黄忆莎,王晓宇,秦蕾,张光宇,程荣辉,孙晓峰..多喷嘴燃烧室三维热声不稳定性分析[J].航空学报,2025,46(18):81-96,16.基金项目
国家自然科学基金(52406037) National Natural Science Foundation of China(52406037) (52406037)
