ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. «Машиностроение». 2016. № 3

21

15.

Edwards J.R., Liou M.-S.

Low-diffusion flux-splitting methods for flow at all

speeds // AIAA Jl. 1998. Vol. 36. No. 9. P. 1610



1617.

16.

Марчук Г.И.

Методы расщепления. М.: Наука, 1988. 264 с.

17.

Гинзбург И.П.

Трение и теплопередача при движении смеси газов. Л.: Изд-во

ЛГУ, 1975. 278 с.

18.

Агафонов В.П., Вертушкин В.К., Гладков А.А., Полянский О.Ю.

Неравновес-

ные физико-химические процессы в аэродинамике / под общ. ред. Г.И. Майка-

пара. М.: Машиностроение, 1972. 344 с.

19.

Bird R.B., Stewart W.E., Lightfoot E.W.

Transport Phenomena. 2nd ed.

New York: Wiley, 2002. 912 p.

20.

Treanor C.E., Marrone P.V.

Effect of dissociation on the rate of vibrational relaxa-

tion // Phys. Fluids. 1962. Vol. 5. No. 9. P. 1022



1026.

21.

Аэродинамика

/ А.Г. Голубев, В.Т. Кулугин, А.Ю. Луценко, В.О. Москаленко,

Е.Г. Столярова, А.И. Хлупнов, П.А. Чернуха. М.: Изд-во МГТУ им. Н.Э. Баумана,

2010. 687 с.

REFERENCES

[1] Kontinos D.A., Wright M.J. Introduction: Atmospheric Entry of the Stardust

Sample Return Capsule.

J. Spacecraft and Rockets

, 2010, vol. 47, no. 5,

pp. 705



707.

[2] Boyd I.D., Trumble K.A., Wright M.J. Modeling of Stardust entry at high alti-

tude, Part 1: Flowfield analysis.

J. Spacecraft and Rockets

, 2010, vol. 47, no. 5,

pp. 708



717.

[3] Liu Y., Prabhu D., Trumble K.A. et al. Radiation modeling for the reentry of the

Stardust sample return capsule.

J. Spacecraft and Rockets

, 2010, vol. 47, no. 5,

pp. 741



752.

[4] Trumble K.A., Cozmuta I., Sepka S. et al. Postflight aerothermal analysis of

Stardust sample return capsule.

J. Spacecraft and Rockets

, 2010, vol. 47, no. 5,

pp. 765



774.

[5] Shang J.S., Surzhikov S.T.

Simulating nonequilibrium flow for ablative Earth en-

try.

J. Spacecraft and Rockets

, 2010, vol. 47, no. 5, pp. 806



815.

[6] Jenniskens P. Observations of the Stardust Sample Return Capsule Entry with a

Slit-less Echelle Spectrograph.

AIAA

. Paper 2008



1210. January 2008.

[7] McHarg M.G., Stenbaek-Nielsen H.C., Kanmae T. Observations of the Stardust

Sample Return Capsule Entry using a High Frame Rate Slit-less Spectrograph.

AIAA

. Paper 2008



1211. January 2008.

[8] Mitcheltree R.A., Wilmoth R.G., Cheatwood F.M

.

, Brauckmann G.J., Green F.A.

Aerodynamics of Stardust Sample Return Capsule.

J. Spacecraft and Rockets

,

1999, vol. 36, no. 3, pp. 429



435.

[9] Desai P.N., Lyons D.T., Tooley J. et al. Entry, descent, and landing operations

analysis for the Stardust entry capsule.

J. Spacecraft and Rockets

, 2008, vol. 45,

no. 6, pp. 1262



1268.

[10] Shang J.S., Surzhikov S.T. Simulating Stardust Earth reentry with radiation heat

transfer.

J. Spacecraft and Rockets

, 2011, vol. 48, no. 3, pp. 385



396.

[11] Shang J.S., Surzhikov S.T. Coupled radiation-gasdynamic model for Stardust

Earth entry simulation.

J. Spacecraft and Rockets

, 2012, vol. 49, no. 5, pp.

875



888.

[12] Surzhikov S.T. Radiation Aerothermodynamics of Spacecraft Stardust.

Prikl. ma-

tem. i mekhanika

[J. Appl. Math. Mech.], 2016, vol. 80, no. 1, pp. 60



79 (in

Russ.).

[13] Surzhikov S.T. Radiatsionnaya gazovaya dinamika spuskaemykh kosmicheskikh

apparatov. Mnogotemperaturnye modeli [Radiation Gas Dynamics of Descent

Capsule. Multitemperature Models]. Moscow, IPMekh RAN Publ., 2013. 706 p.