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Analysis on secondary instability of shear layer based on the concept of phase synchronization

Analysis on secondary instability of shear layer based on the concept of phase synchronization
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摘要 A concept of phase synchronization point is proposed, and then a model is built using this concept to explain secondary instabilities. This model has been used to determine the conditions of K- and H-type secondary instabilities, which are coincident with the conditions published in literatures. It also can be used to analyze other secondary instability phenomena. For example, the numerical results validate the analysis results in the case of 1/3rd subharmonic mode secondary instability. Furthermore, the numerical results indicate that the spanwise wave number of 3D disturbance has significant effect on the secondary instability. A concept of phase synchronization point is proposed, and then a model is built using this concept to explain secondary instabilities. This model has been used to determine the conditions of K- and H-type secondary instabilities, which are coincident with the conditions published in literatures. It also can be used to analyze other secondary instability phenomena. For example, the numerical results validate the analysis results in the case of 1/3rd subharmonic mode secondary instability. Furthermore, the numerical results indicate that the spanwise wave number of 3D disturbance has significant effect on the secondary instability.
作者 Wubing Yang Qing Shen Qiang Wang Xiangjiang Yu
机构地区 China Academy of Aerospace Aerodynamics
出处 《Theoretical & Applied Mechanics Letters》 CAS 2014年第6期31-34,共4页 力学快报(英文版)
关键词 shear layer secondary instability 3D disturbance numerical simulation shear layer, secondary instability, 3D disturbance, numerical simulation
分类号 O357.1 [理学—流体力学]
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参考文献8

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Theoretical & Applied Mechanics Letters
2014年 第6期

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