Incident shock strength evolution in overexpanded jet flow out of rocket nozzle

Silnikov Mikhail V.; Chernyshov Mikhail V.

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Incident shock strength evolution in overexpanded jet flow out of rocket nozzle

机译：火箭喷嘴喷流过大时的冲击强度变化

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摘要

The evolution of the incident shock in the plane overexpanded jet flow or in the axisymmetric one is analyzed theoretically and compared at the whole range of governing flow parameters. Analytical results can be applied to avoid jet flow instability and self-oscillation effects at rocket launch, to improve launch safety and to suppress shock-wave induced noise harmful to environment and personnel.

机译：从理论上分析了平面超膨胀射流或轴对称射流中入射冲击的演化，并在控制流动参数的整个范围内进行了比较。分析结果可用于避免火箭发射时射流不稳定和自激效应，从而提高发射安全性并抑制冲击波引起的对环境和人员有害的噪声。

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来源
《Acta astronautica》 |2017年第6期|172-180|共9页
作者
Silnikov Mikhail V.; Chernyshov Mikhail V.;
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作者单位

Peter Great St Petersburg Polytech Univ, Dept Extreme Proc Mat & Blast Safety, Inst Mil Educ & Safety Res, 29 Polytekhnicheskaya Str, St Petersburg 195251, Russia|Special Mat Corp, 28A Bolshoy Sampsonievsky Ave, St Petersburg 194044, Russia;

Peter Great St Petersburg Polytech Univ, Dept Extreme Proc Mat & Blast Safety, Inst Mil Educ & Safety Res, 29 Polytekhnicheskaya Str, St Petersburg 195251, Russia|Special Mat Corp, 28A Bolshoy Sampsonievsky Ave, St Petersburg 194044, Russia;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Supersonic jet flow; Longitudinal instability; Self-oscillations; Shock-wave noise; Rocket launch safety; Theoretical analysis;

机译：超音速射流;纵向不稳定性;自激振荡;冲击波噪声;火箭发射安全性;理论分析;

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专利

1. Modeling Free Shock Separation Induced Side Loads in Overexpanded Rocket Nozzles [J] . A. A. Aghababaie, R. Theunissen AIAA Journal . 2015,第1期

机译：对超膨胀火箭喷嘴中自由冲击分离引起的侧向载荷进行建模
2. Numerical calculation of FSS/RSS transition in highly overexpanded rocket nozzle flows [J] . Emanuele Martelli, Francesco Nasuti, Marcello Onofri Shock Waves . 2010,第2期

机译：高度过度膨胀的火箭喷嘴流中FSS / RSS过渡的数值计算
3. Numerical calculation of FSS/RSS transition in highly overexpanded rocket nozzle flows [J] . Martelli E., Nasuti F., Onofri M. Shock Waves . 2010,第2期

机译：超高膨胀火箭喷嘴流中FSS / RSS过渡的数值计算
4. Effect of Nozzle Inflow Conditions on Shock-Cell Structure and Noise in Overexpanded Jets [C] . J. Liu, A. Corrigan, R.F. Johnson, AIAA/CEAS aeroacoustics conference . 2019

机译：喷嘴流入条件对超膨胀射流激波单元结构和噪声的影响
5. A semi-quantitative schlieren high-speed flow diagnostic: Analysis of high-pressure-ratio, overexpanded planar flow in rocket nozzles. [D] . Thorsett-Hill, Karen. 2012

机译：半定量schlieren高速流动诊断：火箭喷嘴中高压比，过度膨胀的平面流动的分析。
6. Flow-structure interaction effects on a jet emanating from a flexible nozzle [O] . S. Murugappan, E. J. Gutmark, R. R. Lakhamraju, -1

机译：流动结构相互作用对柔性喷嘴射流的影响
7. Numerical simulation of shock-induced separated flows in overexpanded rocket nozzles [O] . A. Shams, S. Girard, P. Comte 2012

机译：减震分离流量在过度的波纹喷嘴中的数值模拟
8. Flow Processes in Overexpanded Chemical Rocket Nozzles. Part 1: Flow Separation [R] . Schmucker, R. H. 1984

机译：过度膨胀化学火箭喷嘴中的流动过程。第1部分：流动分离

Incident shock strength evolution in overexpanded jet flow out of rocket nozzle

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