Combustion instability of pilot flame in a pilot bluff body stabilized combustor 被引量：7

Combustion instability of pilot flame in a pilot bluff body stabilized combustor

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摘要 Combustion instability of pilot flame has been investigated in a model pilot bluff body stabilized combustor by running the pilot flame only. The primary objectives are to investigate the pilot flame dynamics and to provide bases for the study of the interaction mechanisms between the pilot flame and the main flame. Dynamic pressures are measured by dynamic pressure transduc- ers. A high speed camera with CH＊ bandpass filter is used to capture the pilot flame dynamics. The proper orthogonal decomposition （POD） is used to further analyze the high speed images. With the increase of the pilot fuel mass flow rate, the pilot flame changes from stable to unstable state grad- ually. The combustion instability frequency is 136 Hz when the pilot flame is unstable. Numerical simulation results show that the equivalence ratios in both the shear layer and the recirculation zone increase as the pilot fuel mass flow rate increases. The mechanism of the instability of the pilot flame can be attributed to the coupling between the second order acoustic mode and the unsteady heat release due to symmetric vortex shedding. These results illustrate that the pilot fuel mass flow rate has significant influences on the dynamic stability of the pilot flame. Combustion instability of pilot flame has been investigated in a model pilot bluff body stabilized combustor by running the pilot flame only. The primary objectives are to investigate the pilot flame dynamics and to provide bases for the study of the interaction mechanisms between the pilot flame and the main flame. Dynamic pressures are measured by dynamic pressure transduc- ers. A high speed camera with CH＊ bandpass filter is used to capture the pilot flame dynamics. The proper orthogonal decomposition （POD） is used to further analyze the high speed images. With the increase of the pilot fuel mass flow rate, the pilot flame changes from stable to unstable state grad- ually. The combustion instability frequency is 136 Hz when the pilot flame is unstable. Numerical simulation results show that the equivalence ratios in both the shear layer and the recirculation zone increase as the pilot fuel mass flow rate increases. The mechanism of the instability of the pilot flame can be attributed to the coupling between the second order acoustic mode and the unsteady heat release due to symmetric vortex shedding. These results illustrate that the pilot fuel mass flow rate has significant influences on the dynamic stability of the pilot flame.

作者 Fu Xiao Yang Fujiang Guo Zhihui

机构地区 National Key Laboratory of Science and Technology on Aero-Engine Aero-Thermodynamics

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2015年第6期1606-1615,共10页 中国航空学报（英文版）

关键词 Combustion instability High speed image Pilot flame Proper orthogonal decom-position （POD） Vortex shedding Combustion instability High speed image Pilot flame Proper orthogonal decom-position （POD） Vortex shedding

分类号 TK401 [动力工程及工程热物理—动力机械及工程]

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参考文献36

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Chinese Journal of Aeronautics

2015年第6期

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Combustion instability of pilot flame in a pilot bluff body stabilized combustor 被引量：7

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