Biglobal stability analysis for the side-induced flow in solid rocket motors

Shang Rong Yang; Pei Jin Liu; Shao Juan Wei; Xiang Geng Wei

doi:10.7673/j.issn.1006-2793.2013.06.004

Biglobal stability analysis for the side-induced flow in solid rocket motors

Shang Rong Yang, Pei Jin Liu, Shao Juan Wei, Xiang Geng Wei

School of Astronautics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

Abstract

A general linear stability approach was applied to investigate the aerodynamic stability of the side-induced flow in solid rocket motors with large length to radius ratio. The eigenvalue problems were discretized by a spectral collocation method and then solved numerically using MatLab software. The discrete eigenvalue set and corresponding eigenfunctions were obtained. Results reveal that when length to radius ratio (L/R) is larger than 10, some eigenmodes become temporal instable. The amplitudes of disturbance velocities increase with the axial locations and instable areas spreading toward the center line, which are consistent with experimental observations. Comparisons between theoretical results and experimental data also show well agreement in the frequencies of disturbance velocities.

Original language	English
Pages (from-to)	727-730+747
Journal	Guti Huojian Jishu/Journal of Solid Rocket Technology
Volume	36
Issue number	6
DOIs	https://doi.org/10.7673/j.issn.1006-2793.2013.06.004
State	Published - Dec 2013

Keywords

Biglobal linear stability
Parietal vortex-shedding
Solid rocket motor
Spectral collocation method

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10.7673/j.issn.1006-2793.2013.06.004

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title = "Biglobal stability analysis for the side-induced flow in solid rocket motors",

abstract = "A general linear stability approach was applied to investigate the aerodynamic stability of the side-induced flow in solid rocket motors with large length to radius ratio. The eigenvalue problems were discretized by a spectral collocation method and then solved numerically using MatLab software. The discrete eigenvalue set and corresponding eigenfunctions were obtained. Results reveal that when length to radius ratio (L/R) is larger than 10, some eigenmodes become temporal instable. The amplitudes of disturbance velocities increase with the axial locations and instable areas spreading toward the center line, which are consistent with experimental observations. Comparisons between theoretical results and experimental data also show well agreement in the frequencies of disturbance velocities.",

keywords = "Biglobal linear stability, Parietal vortex-shedding, Solid rocket motor, Spectral collocation method",

author = "Yang, {Shang Rong} and Liu, {Pei Jin} and Wei, {Shao Juan} and Wei, {Xiang Geng}",

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T1 - Biglobal stability analysis for the side-induced flow in solid rocket motors

AU - Yang, Shang Rong

AU - Liu, Pei Jin

AU - Wei, Shao Juan

AU - Wei, Xiang Geng

PY - 2013/12

Y1 - 2013/12

N2 - A general linear stability approach was applied to investigate the aerodynamic stability of the side-induced flow in solid rocket motors with large length to radius ratio. The eigenvalue problems were discretized by a spectral collocation method and then solved numerically using MatLab software. The discrete eigenvalue set and corresponding eigenfunctions were obtained. Results reveal that when length to radius ratio (L/R) is larger than 10, some eigenmodes become temporal instable. The amplitudes of disturbance velocities increase with the axial locations and instable areas spreading toward the center line, which are consistent with experimental observations. Comparisons between theoretical results and experimental data also show well agreement in the frequencies of disturbance velocities.

AB - A general linear stability approach was applied to investigate the aerodynamic stability of the side-induced flow in solid rocket motors with large length to radius ratio. The eigenvalue problems were discretized by a spectral collocation method and then solved numerically using MatLab software. The discrete eigenvalue set and corresponding eigenfunctions were obtained. Results reveal that when length to radius ratio (L/R) is larger than 10, some eigenmodes become temporal instable. The amplitudes of disturbance velocities increase with the axial locations and instable areas spreading toward the center line, which are consistent with experimental observations. Comparisons between theoretical results and experimental data also show well agreement in the frequencies of disturbance velocities.

KW - Biglobal linear stability

KW - Parietal vortex-shedding

KW - Solid rocket motor

KW - Spectral collocation method

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AN - SCOPUS:84893863772

SN - 1006-2793

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JO - Guti Huojian Jishu/Journal of Solid Rocket Technology

JF - Guti Huojian Jishu/Journal of Solid Rocket Technology

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ER -

Biglobal stability analysis for the side-induced flow in solid rocket motors

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