Aerodynamics for the Mars Phoenix Entry Capsule

Edquist, Karl T.; Desai, Prasun N.; Schoenenberger, Mark

doi:10.2514/6.2008-7219

Cited by 9 publications

(1 citation statement)

References 13 publications

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“…Results of comparison of the computations per formed in the present study with the results of solving the Navier-Stokes equations (Edquist et al, 2008) and with the data of the experimental study (Blake, 1970), performed for Mach numbers 6 and 10, are given in the table.…”

Section: Study Of the Influence Of Chemical Processes In The Shock Lamentioning

confidence: 97%

Aerodynamic design of a descent vehicle in the Martian atmosphere under the exomars project

Golomazov

Finchenko

2014

Sol Syst Res

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The paper considers mathematical support for calculation of the aerodynamics and flight trajec tory of descent vehicles (DV) during entry into the Martian atmosphere. The study of aerodynamics of a seg mental and conical DV is given under various reentry conditions. The paper presents comparison of compu tational results of the aerodynamic properties of the DV of the ExoMars project with wind tunnel test data of DV models.

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Section: Study Of the Influence Of Chemical Processes In The Shock Lamentioning

confidence: 97%

Aerodynamic design of a descent vehicle in the Martian atmosphere under the exomars project

Golomazov

Finchenko

2014

Sol Syst Res

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Aerodynamic design, analysis, and validation techniques for the Tianwen-1 entry module

Rao

Cheng

et al. 2022

Astrodyn

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The clear differences between the atmosphere of Mars and the Earth coupled with the lack of a domestic research basis were significant challenges for the aerodynamic prediction and verification of Tianwen-1. In addition, the Mars entry, descent, and landing (EDL) mission led to specific requirements for the accuracy of the aerodynamic deceleration performance, stability, aerothermal heating, and various complex aerodynamic coupling problems of the entry module. This study analyzes the key and difficult aerodynamic and aerothermodynamic problems related to the Mars EDL process. Then, the study process and results of the design and optimization of the entry module configuration are presented along with the calculations and experiments used to obtain the aerodynamic and aerothermodynamic characteristics in the Martian atmosphere. In addition, the simulation and verification of the low-frequency free oscillation characteristics under a large separation flow are described, and some special aerodynamic coupling problems such as the aeroelastic buffeting response of the trim tab are discussed. Finally, the atmospheric parameters and aerodynamic characteristics obtained from the flight data of the Tianwen-1 entry module are compared with the design data. The data obtained from the aerodynamic design, analysis, and verification of the Tianwen-1 entry module all meet the engineering requirements. In particular, the flight data results for the atmospheric parameters, trim angles of attack, and trim axial forces are within the envelopes of the prediction deviation zones.

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