Static instability of mars entry vehicles flying at small angle of attack

Junming Lv; Wenbo Miao; Fei Huang; Xiaoli Cheng; Qiang Wang

Static instability of mars entry vehicles flying at small angle of attack

Junming Lv
, Wenbo Miao
, Fei Huang
, Xiaoli Cheng
, Qiang Wang

China Aerospace Science and Technology Corporation

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

1 Scopus citations

Abstract

Three-dimensional Navier-Stokes equations in high temperature real gas model and perfect gas model are solved for hypersonic entry process. Good agreement is achieved between numerical results, reference values and flight data of Viking, which validates physical-chemical models and numerical methods. Aerodynamic prediction of Mars Pathfinder proves that results of real gas model are close to LAURA. Perfect gas model with effective specific heat ratio is capable of computing lift and drag coefficients. At 2° angle of attack, MPF exhibits static instability along trajectory, which perfect gas model failed to catch on. It is considered that main reasons of static instability are sonic line shifting around shoulder in windward, subsonic area varying and subsonic bubble occurring in leeward. They result in different pressure change in shock layer and in transportation process from expansion zone to upstream.

Original language	English
Pages (from-to)	297-304
Number of pages	8
Journal	Jisuan Wuli/Chinese Journal of Computational Physics
Volume	33
Issue number	3
State	Published - 25 May 2016
Externally published	Yes

Keywords

Aerodynamic characteristic
Entry at small AoA
Martian atmosphere
Static instability
Subsonic zone

Cite this

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title = "Static instability of mars entry vehicles flying at small angle of attack",

abstract = "Three-dimensional Navier-Stokes equations in high temperature real gas model and perfect gas model are solved for hypersonic entry process. Good agreement is achieved between numerical results, reference values and flight data of Viking, which validates physical-chemical models and numerical methods. Aerodynamic prediction of Mars Pathfinder proves that results of real gas model are close to LAURA. Perfect gas model with effective specific heat ratio is capable of computing lift and drag coefficients. At 2° angle of attack, MPF exhibits static instability along trajectory, which perfect gas model failed to catch on. It is considered that main reasons of static instability are sonic line shifting around shoulder in windward, subsonic area varying and subsonic bubble occurring in leeward. They result in different pressure change in shock layer and in transportation process from expansion zone to upstream.",

keywords = "Aerodynamic characteristic, Entry at small AoA, Martian atmosphere, Static instability, Subsonic zone",

author = "Junming Lv and Wenbo Miao and Fei Huang and Xiaoli Cheng and Qiang Wang",

year = "2016",

month = may,

day = "25",

language = "英语",

volume = "33",

pages = "297--304",

journal = "Jisuan Wuli/Chinese Journal of Computational Physics",

issn = "1001-246X",

publisher = "Editorial Board of Chinese Journal of Computational",

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}

TY - JOUR

T1 - Static instability of mars entry vehicles flying at small angle of attack

AU - Lv, Junming

AU - Miao, Wenbo

AU - Huang, Fei

AU - Cheng, Xiaoli

AU - Wang, Qiang

PY - 2016/5/25

Y1 - 2016/5/25

N2 - Three-dimensional Navier-Stokes equations in high temperature real gas model and perfect gas model are solved for hypersonic entry process. Good agreement is achieved between numerical results, reference values and flight data of Viking, which validates physical-chemical models and numerical methods. Aerodynamic prediction of Mars Pathfinder proves that results of real gas model are close to LAURA. Perfect gas model with effective specific heat ratio is capable of computing lift and drag coefficients. At 2° angle of attack, MPF exhibits static instability along trajectory, which perfect gas model failed to catch on. It is considered that main reasons of static instability are sonic line shifting around shoulder in windward, subsonic area varying and subsonic bubble occurring in leeward. They result in different pressure change in shock layer and in transportation process from expansion zone to upstream.

AB - Three-dimensional Navier-Stokes equations in high temperature real gas model and perfect gas model are solved for hypersonic entry process. Good agreement is achieved between numerical results, reference values and flight data of Viking, which validates physical-chemical models and numerical methods. Aerodynamic prediction of Mars Pathfinder proves that results of real gas model are close to LAURA. Perfect gas model with effective specific heat ratio is capable of computing lift and drag coefficients. At 2° angle of attack, MPF exhibits static instability along trajectory, which perfect gas model failed to catch on. It is considered that main reasons of static instability are sonic line shifting around shoulder in windward, subsonic area varying and subsonic bubble occurring in leeward. They result in different pressure change in shock layer and in transportation process from expansion zone to upstream.

KW - Aerodynamic characteristic

KW - Entry at small AoA

KW - Martian atmosphere

KW - Static instability

KW - Subsonic zone

UR - https://www.scopus.com/pages/publications/84970997332

M3 - 文章

AN - SCOPUS:84970997332

SN - 1001-246X

VL - 33

SP - 297

EP - 304

JO - Jisuan Wuli/Chinese Journal of Computational Physics

JF - Jisuan Wuli/Chinese Journal of Computational Physics

IS - 3

ER -

Static instability of mars entry vehicles flying at small angle of attack

Abstract

Keywords

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