Parameter analysis of nonlinear combustion instability based on T-burner

Bing Ning Jin; Pei Jin Liu; Xiang Geng Wei; Xiang Lv; Xin Liu; Shao Juan Wei

doi:10.7673/j.issn.1006-2793.2016.03.001

Parameter analysis of nonlinear combustion instability based on T-burner

Bing Ning Jin, Pei Jin Liu, Xiang Geng Wei, Xiang Lv, Xin Liu, Shao Juan Wei

航天学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

Based on the pulsing trigger T-burner technique, some results were obtained on the relationship between the DC Shift, the initial limit amplitude and the pressure coupled response function. The result shows that, the propellant combustion has a great influence on the DC Shift and the initial limit amplitude. Also, the propellant with different formulations has a great influence on the DC Shift, which means that the higher the pressure response functions, the bigger DC Shift produced by the propellant burning would be. For nonlinear instability, there is a certain coupling relationship between the pressure response function of the propellant, the initial limit amplitude and the DC Shift, and the results are consistent with the theory of Flandro.

源语言	英语
页（从-至）	301-305
页数	5
期刊	Guti Huojian Jishu/Journal of Solid Rocket Technology
卷	39
期	3
DOI	https://doi.org/10.7673/j.issn.1006-2793.2016.03.001
出版状态	已出版 - 1 6月 2016

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title = "Parameter analysis of nonlinear combustion instability based on T-burner",

abstract = "Based on the pulsing trigger T-burner technique, some results were obtained on the relationship between the DC Shift, the initial limit amplitude and the pressure coupled response function. The result shows that, the propellant combustion has a great influence on the DC Shift and the initial limit amplitude. Also, the propellant with different formulations has a great influence on the DC Shift, which means that the higher the pressure response functions, the bigger DC Shift produced by the propellant burning would be. For nonlinear instability, there is a certain coupling relationship between the pressure response function of the propellant, the initial limit amplitude and the DC Shift, and the results are consistent with the theory of Flandro.",

keywords = "DC Shift, Initial limit amplitude, combustion response function, Nonlinear instability, T-burner",

author = "Jin, {Bing Ning} and Liu, {Pei Jin} and Wei, {Xiang Geng} and Xiang Lv and Xin Liu and Wei, {Shao Juan}",

year = "2016",

month = jun,

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doi = "10.7673/j.issn.1006-2793.2016.03.001",

language = "英语",

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T1 - Parameter analysis of nonlinear combustion instability based on T-burner

AU - Jin, Bing Ning

AU - Liu, Pei Jin

AU - Wei, Xiang Geng

AU - Lv, Xiang

AU - Liu, Xin

AU - Wei, Shao Juan

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Based on the pulsing trigger T-burner technique, some results were obtained on the relationship between the DC Shift, the initial limit amplitude and the pressure coupled response function. The result shows that, the propellant combustion has a great influence on the DC Shift and the initial limit amplitude. Also, the propellant with different formulations has a great influence on the DC Shift, which means that the higher the pressure response functions, the bigger DC Shift produced by the propellant burning would be. For nonlinear instability, there is a certain coupling relationship between the pressure response function of the propellant, the initial limit amplitude and the DC Shift, and the results are consistent with the theory of Flandro.

AB - Based on the pulsing trigger T-burner technique, some results were obtained on the relationship between the DC Shift, the initial limit amplitude and the pressure coupled response function. The result shows that, the propellant combustion has a great influence on the DC Shift and the initial limit amplitude. Also, the propellant with different formulations has a great influence on the DC Shift, which means that the higher the pressure response functions, the bigger DC Shift produced by the propellant burning would be. For nonlinear instability, there is a certain coupling relationship between the pressure response function of the propellant, the initial limit amplitude and the DC Shift, and the results are consistent with the theory of Flandro.

KW - DC Shift

KW - Initial limit amplitude, combustion response function

KW - Nonlinear instability

KW - T-burner

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SN - 1006-2793

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JO - Guti Huojian Jishu/Journal of Solid Rocket Technology

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Parameter analysis of nonlinear combustion instability based on T-burner

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