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@article{MM_2010_22_9_a2,
author = {Yu. D. Shevelev and N. G. Syzranova and E. V. Kustova and E. A. Nagnibeda},
title = {Numerical simulation of hypersonic flows around space vehicles descending in the {Martian} atmosphere},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {23--50},
publisher = {mathdoc},
volume = {22},
number = {9},
year = {2010},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2010_22_9_a2/}
}
TY - JOUR AU - Yu. D. Shevelev AU - N. G. Syzranova AU - E. V. Kustova AU - E. A. Nagnibeda TI - Numerical simulation of hypersonic flows around space vehicles descending in the Martian atmosphere JO - Matematičeskoe modelirovanie PY - 2010 SP - 23 EP - 50 VL - 22 IS - 9 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2010_22_9_a2/ LA - ru ID - MM_2010_22_9_a2 ER -
%0 Journal Article %A Yu. D. Shevelev %A N. G. Syzranova %A E. V. Kustova %A E. A. Nagnibeda %T Numerical simulation of hypersonic flows around space vehicles descending in the Martian atmosphere %J Matematičeskoe modelirovanie %D 2010 %P 23-50 %V 22 %N 9 %I mathdoc %U http://geodesic.mathdoc.fr/item/MM_2010_22_9_a2/ %G ru %F MM_2010_22_9_a2
Yu. D. Shevelev; N. G. Syzranova; E. V. Kustova; E. A. Nagnibeda. Numerical simulation of hypersonic flows around space vehicles descending in the Martian atmosphere. Matematičeskoe modelirovanie, Tome 22 (2010) no. 9, pp. 23-50. http://geodesic.mathdoc.fr/item/MM_2010_22_9_a2/
[1] Kustova E. V., Nagnibeda E. A., Shevelev Yu. D., Syzranova N. G., “Neravnovesnaya kinetika i protsessy perenosa pri sverkhzvukovom obtekanii tel potokom uglekislogo gaza”, Fiziko-khimicheskaya kinetika v gazovoi dinamike, 6 (2008) http://www.chemphys.edu.ru/media/files/2008-04-04-001.pdf
[2] Kustova E., Nagnibeda E., “On a correct description of a multi-temperature dissociating $\text{CO}_2$ flow”, Chem. Phys., 321 (2006), 293–310 | DOI
[3] Golovachev Yu. P., Chislennoe modelirovanie techenii vyazkogo gaza v udarnom sloe, Nauka, M., 1996, 376 pp. | Zbl
[4] Vlasov V. I., “Issledovanie giperzvukovogo obtekaniya spuskaemogo apparata pri ego vkhode v atmosferu Marsa”, Kosmonavtika i raketostroenie, 1997, no. 11, 48–54
[5] Afonina N. E., Gromov V. G., “Chislennoe modelirovanie obtekaniya Marsianskogo spuskaemogo apparata”, Aeromekhanika i gazovaya dinamika (NII mekhaniki MGU), 2001, no. 2, 35–47
[6] Candler G., “Computation of Thermo-Chemical Nonequilibrium Martian Atmospheric Entry Flows”, AIAA, 1990, Paper No 90–1695
[7] Park C., Howe J., Jaffe R., “Review of Chemical-Kinetic Problems of future NASA Mission. II: Mars entries”, J. Thermophys. Heat Transfer, 8:1 (1994), 9–23 | DOI
[8] Mc. Kenzie R. L., Arnold J. O., “Experimental and theoretical investigation of the chemical kinetics and non-equilibrium CN radiation behind shock waves in $\text{CO}_2$-$\text N_2$-mixtures”, AIAA, 1967, Paper No 322
[9] Ibragimova L. B., “Konstanty skorosti khimicheskikh reaktsii v vysokotemperaturnom gaze $\text{CO}_2$”, Matematicheskoe modelirovanie, 12:4 (2000), 3–19
[10] Taylor R. L., Bitterman S., “Survey of vibrational relaxation data for processes important in the $\text{CO}_2+\text{Ar}$ laser systems”, Rev. Mod. Phys., 41:1 (1969), 26–47 | DOI
[11] Wilke C. R., “Diffusional properties of multicomponent gases”, J. Chem. Eng. Progr., 46:2 (1950), 95–104
[12] Vlasov V. N., Gorshkov A. B., “Sravnenie rezultatov raschetov giperzvukovogo obtekaniya zatuplennykh tel s letnym eksperimentom OREX”, Mekhanika zhidkosti i gaza, 2001, no. 5, 160–168 | Zbl
[13] Shevelev Yu. D., Prostranstvennye zadachi vychislitelnoi aerogidrodinamiki, Nauka, M., 1986, 368 pp. | Zbl
[14] Pilyugin N. N., Tirskii G. A., Dinamika ionizovannogo izluchayuschego gaza, Izd-vo MGU, M., 1989, 309 pp. | Zbl
[15] Tirsky G. A., “Up-to date gasdynamic models of hypersonic aerodynamics and heat transfer with real gas properties”, Fluid Mech., 25 (1993), 151–181 | MR
[16] Losev S. A., Kozlov P. V., Kuznezova L. A., Makarov V. N., Romanenko Yu. V., Surzhikov S. T., Zalogin G. N., “Radiation of $\text{CO}_2$-$\text{N}_2$-Ar mixture in a shock wave: experiment and modeling”, Proceedings of the Third European Symposium on Aerothermodynamics for Space Vehicles (ESA SP-426), ESTEC, Noordwiik, The Netherlands, 1998, 437–444
[17] Afonina N. E., Gromov V. G., Kovalev V. L., “Modelirovanie kataliticheskikh svoistv pokrytii vysokotemperaturnykh teplozaschitnykh materialov v dissotsiirovannoi smesi uglekislogo gaza i azota”, Izv. RAN. MZhG, 2000, no. 1, 106–116 | Zbl
[18] Mikhailov V. V., “Approksimatsiya entalpii i uravneniya sostoyaniya uglekislogo gaza”, Inzhenernyi zhurnal, 2:2 (1962), 239–245
[19] Park C., Nonequilibrium Hypersonic Aerothermodynamics, Wiley-Intern., N.Y., 1990
[20] Marrone P. V., Treanor C. E., “Chemical Relaxation with Preferential Dissociation from Excited Vibrational Levels”, Phys. Fluids, 6:9 (1963), 1215 | DOI | Zbl
[21] Wilke C. R., “A viscosity equation for gas mixture”, J. Chem. Phys., 18:4 (1950), 517–522 | DOI
[22] Mason E. A., Saxena S. C., “Approximate formula for the conductivity of gas mixture”, Phus. Fluids, 1:5 (1958), 361–369 | DOI | MR
[23] Kalinin A. P., Leonas V. B., Sermyagin A. V., “Integraly stolknovenii dlya komponent dissotsiirovannykh planetnykh atmosfer”, Teplofizika vysokikh temperatur, 9:5 (1971), 1066–1068
[24] Blottner F. G., Curties C. F., Bird R. B., Chemically reacting viscous flow program for multicomponent gas mixtures, Report No SC-RR-70-751, Sandia Laboratories, Albuquerque, New Mexico, 1971
[25] Armaly B., Sutton K., “Thermal conductivity of partially ionized gas mixtures”, AIAA, 1982, Paper No 469, 6 pp.
[26] Gnoffo P. A., Wielmuenster K. J., Hamilton H. H., “Computational aerothermodynamic design issues for hypersonic vehicles”, AIAA, 1997, Paper No 97-2473, 35 pp.
[27] Kumar A., Jain A. C., “Nonequilibrium merged stagnation shock layers at hypersonic speeds”, Int. J. Heat Mass Tr., 18:10 (1975), 1113–1118 | DOI
[28] Shevelev Yu. D., Syzranova N. G., “Vliyanie razlichnykh modelei khimicheskikh kinetiki na sverkhzvukovoe obtekanie zatuplennykh tel potokom uglekislogo gaza”, Fiziko-khimicheskaya kinetika v gazovoi dinamike, 5 (2007) http://www.chemphys.edu.ru/media/files/2007-12-17-001.pdf