Improvements to RBCC engine performance analysis model

Xiang Lv; Guo Qiang He; Pei Jin Liu; Fei Qin; Yang Liu

Improvements to RBCC engine performance analysis model

Xiang Lv, Guo Qiang He, Pei Jin Liu, Fei Qin, Yang Liu

School of Astronautics

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

Improvements to former RBCC engine performance analysis model was investigated. Thermodynamics calculation model for primary rocket was established by adopting the Minimum Gibbs Energy method for primary rocket chamber, and the frozen flow assumption for nozzle flow. Thermodynamics calculation was carried out for primary rocket which uses the propellant of H₂O₂(L)/JP-10(L). Comparison was made with the results obtained from those published softwares, such as CHEMKIN and CEA, and the validation of improvements verificated. Performance analysis model for aftbody was established by using CFD code to solve the 2-D Euler equations. An automatic calculation strategy for aftbody performance analysis was designed on the basis of the programming interface of CFD code and PYTHON script language, automating the geometry modeling, mesh generation, boundary condition definition, CFD solver configuration, CFD equations solving and performance parameters calculation for aftbody.

Original language	English
Pages (from-to)	387-390
Number of pages	4
Journal	Guti Huojian Jishu/Journal of Solid Rocket Technology
Volume	33
Issue number	4
State	Published - Aug 2010

Keywords

Numerical simulation
Performance analysis
Rocket-based-combined-cycle(RBCC)
Thermodynamics calculation

Cite this

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title = "Improvements to RBCC engine performance analysis model",

abstract = "Improvements to former RBCC engine performance analysis model was investigated. Thermodynamics calculation model for primary rocket was established by adopting the Minimum Gibbs Energy method for primary rocket chamber, and the frozen flow assumption for nozzle flow. Thermodynamics calculation was carried out for primary rocket which uses the propellant of H2O2(L)/JP-10(L). Comparison was made with the results obtained from those published softwares, such as CHEMKIN and CEA, and the validation of improvements verificated. Performance analysis model for aftbody was established by using CFD code to solve the 2-D Euler equations. An automatic calculation strategy for aftbody performance analysis was designed on the basis of the programming interface of CFD code and PYTHON script language, automating the geometry modeling, mesh generation, boundary condition definition, CFD solver configuration, CFD equations solving and performance parameters calculation for aftbody.",

keywords = "Numerical simulation, Performance analysis, Rocket-based-combined-cycle(RBCC), Thermodynamics calculation",

author = "Xiang Lv and He, {Guo Qiang} and Liu, {Pei Jin} and Fei Qin and Yang Liu",

year = "2010",

month = aug,

language = "英语",

volume = "33",

pages = "387--390",

journal = "Guti Huojian Jishu/Journal of Solid Rocket Technology",

issn = "1006-2793",

publisher = "Journal of Solid Rocket Technology",

number = "4",

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TY - JOUR

T1 - Improvements to RBCC engine performance analysis model

AU - Lv, Xiang

AU - He, Guo Qiang

AU - Liu, Pei Jin

AU - Qin, Fei

AU - Liu, Yang

PY - 2010/8

Y1 - 2010/8

N2 - Improvements to former RBCC engine performance analysis model was investigated. Thermodynamics calculation model for primary rocket was established by adopting the Minimum Gibbs Energy method for primary rocket chamber, and the frozen flow assumption for nozzle flow. Thermodynamics calculation was carried out for primary rocket which uses the propellant of H2O2(L)/JP-10(L). Comparison was made with the results obtained from those published softwares, such as CHEMKIN and CEA, and the validation of improvements verificated. Performance analysis model for aftbody was established by using CFD code to solve the 2-D Euler equations. An automatic calculation strategy for aftbody performance analysis was designed on the basis of the programming interface of CFD code and PYTHON script language, automating the geometry modeling, mesh generation, boundary condition definition, CFD solver configuration, CFD equations solving and performance parameters calculation for aftbody.

AB - Improvements to former RBCC engine performance analysis model was investigated. Thermodynamics calculation model for primary rocket was established by adopting the Minimum Gibbs Energy method for primary rocket chamber, and the frozen flow assumption for nozzle flow. Thermodynamics calculation was carried out for primary rocket which uses the propellant of H2O2(L)/JP-10(L). Comparison was made with the results obtained from those published softwares, such as CHEMKIN and CEA, and the validation of improvements verificated. Performance analysis model for aftbody was established by using CFD code to solve the 2-D Euler equations. An automatic calculation strategy for aftbody performance analysis was designed on the basis of the programming interface of CFD code and PYTHON script language, automating the geometry modeling, mesh generation, boundary condition definition, CFD solver configuration, CFD equations solving and performance parameters calculation for aftbody.

KW - Numerical simulation

KW - Performance analysis

KW - Rocket-based-combined-cycle(RBCC)

KW - Thermodynamics calculation

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M3 - 文章

AN - SCOPUS:77958089504

SN - 1006-2793

VL - 33

SP - 387

EP - 390

JO - Guti Huojian Jishu/Journal of Solid Rocket Technology

JF - Guti Huojian Jishu/Journal of Solid Rocket Technology

IS - 4

ER -

Improvements to RBCC engine performance analysis model

Abstract

Keywords

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