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and Nagnibeda E.A. Transportproperties in reacting mixture of polyatomic gases // Physica A, V. 247.№ 1-4, P. 526-552. 1997.72. Chikhaoui A., Kustova E.V., Nagnibeda E.A. and Alexandrova T.Yu.Modelling of dissociation-recombination in nozzless using strongly nonequilibrium vibrational distributions // Chem.
Phys. V. 263. P. 111-126.2001.73. Enskog D. Kinetische Theorie der Vorgänge in mässig verdünnten Gasen.Diss., Uppsala, 1917.74. Ern A. and Giovangigli V. Multicomponent Transport Algorithms // Lect.Notes Phys., Series monographs, M24. Springer-Verlag, 1994.75.
Eucken E. Ueber das Wärmeleitvermogen, die Spezifische Wärme und dieinnere Reibung der Gase. // Physik. Zeitschr, V. 14, P. 324-332, 1913.76. Galkin V.S. and Rusakov S.V. Accuracy of the modified Eucken correctionto the thermal conductivity of molecular gases // Fluid Dynamics, V. 40(4),P. 660-664, 2005.77. Gimelshein S., Wysong I., Bondar Ye. and Ivanov M. Accuracy analysis ofDSMC chemistry models applied to a normal shock wave // AIP ConferenceProceedings, V.
1501, P. 637-644, 2012.78. Grad H. On the kinetic theory of rarefied gases // Comm. Pure Appl. Math.,V. 2, P. 331–407, 1949.79. Hirschfelder J.O., Curtiss C.F. and Bird R.B. The Molecular Theory ofGases and Liquids // J.Wiley and Sons, New York, 1954.80. Hirschfelder J.O. Heat conductivity in polyatomic or electrically excitedgases // J. Chem. Phys., V. 26, P. 282, 1957.81. Istomin V.A., Kustova E.V., Mekhonoshina M.A.
Eucken correction inhigh-temperature gases with electronic excitation // Journal of ChemicalPhysics, V. 140, № 18, P. 184311, 2014.82. Istomin V.A., Kustova E.V. and Puzyreva L.A. Transport propertiesof electronically excited N 2 /N and O 2 /O mixtures // AIP ConferenceProceedings, V.
1333, P. 667-672, 2011.10683. Istomin V.A. and Kustova E.V. Transport properties of five-componentnitrogen and oxygen ionized mixtures with electronic excitation // AIPConference Proceedings, V. 1501, P. 168-174, 2012.84. Kunova O.V., Kustova E.V., Mekhonoshina M.A., Nagnibeda E.A. Theinfluence of state-to-state kinetics on diffusion and heat transfer behindshock waves // AIP Conference Proceedings. V. 1628, P.
1202-1209. 2014.85. Kunova O., Nagnibeda E. State-to-state description of reacting air flowsbehind shock waves // Chem. Phys. V. 441, P. 66-76. 2014.86. Kustova E.V. On the simplified state-to-state transport coefficients //Chem. Phys. V. 270. № 1. P. 177–195. 2001.87. Kustova E.V., Makarkin D.V, Mekhonoshina M.A. Normal Mean Stressin Non-Equilibrium Viscous N2/N Flows with Dissociation and ElectronicExcitation // AIP Conference Proceedings, 2012. V. 1501, P. 1086-1093.88. Kustova E.V. and Puzyreva L. Transport coefficients in nonequilibriumgas-mixture flows with electronic excitation // Phys.
Rev. E, V. 80. № 4.P. 046407 2009.89. Kustova E.V., Nagnibeda E.A., Alexandrova T.Yu., et al. On the nonequilibrium kinetics and heat transfer in nozzle flows // Chem. phys. 2002.Vol. 276. № 2. P. 139-154.90. Kustova E.V., Nagnibeda E.A. Strong nonequlibrium effects on specificheats and thermal conductivity of diatomic gas // Chem. Phys., V. 208.№ 3. P. 313-329. 199691. Kustova E.V., Nagnibeda E.A.
The effect of level nonequilibrium kineticson transport properties of dissociating gas flow behind a shock wave //Proc. of the 21st International Symposium on Shock Waves / Ed. A.F.P.Houwing. 1997. Brisbane, Australia: University of Queensland. Paper 4231.92. Kustova E.V., Nagnibeda E.A. Transport properties of a reacting gasmixture with strong vibrational and chemical nonequilibrium // Chem.Phys., V.
233. P. 57-75. 199893. Lordet F., Meolans J., Chauvin A., Brun R. Nonequilibrium vibrationdissociation phenomena behind a propagating shock wave: vibrationalpopulation calculation // Shock Waves. 1995. Vol. 4. P. 299-312.10794. Marrone P.V., Treanor C.E. Chemical relaxation with preferentialdissociation from excited vibrational levels // Phys. Fluids. 1963. Vol. 6.№ 9. P.
1215-1221.95. Mason E.A. and Monchick L. Heat conductivity of polyatomic and polargases. // J. Chem. Phys. 36:P. 1622-1632, 1962.96. Mason E.A. and Monchick L. Transport properties of polar gas mixtures.// J. Chem. Phys. 36:2746, 1962.97. Maxwell J.C. On the dynamical theory of gases // Phil. Trans. Roy. Soc.London. V.
157. P. 49-88. 1867.98.McCourt F.R.W., Beenakker J.J.M., Köhler W.E. and Kuščer I.Nonequilibrium Phenomena in Polyatomic Gases, volume I, II // ClarendonPress, Oxford, 1990.99. Millikan R.C., White D.R. Systematics of vibrational relaxation // J.Chem. Phys. 1963. Vol. 39. P. 3209.100. Monchick L., Pereira A.N.G., Mason E.A.
Heat conductivity of polyatomicand polar gases and gas mixtures // J. Chem. Phys. V. 42. P. 3241-3256.1965.101. Nompelis I., Candler G.V. and Holden M.S. Effect of vibrationalnonequilibrium on hypersonic double-cone experiments // AIAA Journal41, P. 2162–2169. 2003.102. Park C. Nonequilibrium hypersonic aerothermodynamics.
New York,Chichester, Brisbane, Toronto, Singapore: J. Wiley and Sons. 1990. 359 p.103. Van den Oord R.J. and Korving J. The thermal conductivity of polyatomicmolecules // J. Chem. Phys., 89:4333, 1988.104. Park C. Thermochemical relaxation in Shock Tunnels // J. Thermophys.Heat Transfer. 2006. Vol. 20, № 4. P.
689-698.105. Parker J.G. Rotational and Vibrational relaxation in diatomic gases //Phys. Fluids. V. 2. P. 449-461. 1959.106. Pascal S. and Brun R. Transport properties of nonequilibrium gas mixtures// Phys. Review E, 47:3251, 1993.107. Schwartz R., Slawsky Z. and Herzfeld K. Calculation of vibrationalrelaxation times in gases // J. Chem.
Phys. V. 20. P. 1591–1599. 1952.108108.Singh K., Singh G. and Sharma R. Role of electronic excitation onthermodynamic and transport properties of argon and argon-hydrogenplasmas // Phys. Plasmas, 17(7):072309, 2010.109. Slater J.C. Atomic Shielding Constants // Phys. Rev. V. 36 № 1. P. 57–64.1930.110. Taxman N. Classical theory of transport phenomena in dilute polyatomicgases // Phys. Review, 110:1235, 1958.111. Uribe F.J., Kestin J.
and Mason E.A. Thermal conductivity of ninepolyatomic gases at low density // J. Phys. Chem. Ref. Data, V. 19. № 5.P. 1123-1136, 1990.112. URL http://webbook.nist.gov/chemistry/form-ser.html113. Waldmann L. Die Boltzmann-Gleichung fur Gase mit RotierendenMolekulen // Z. Naturforsch, V. 12a, P. 660, 1957.114.
Waldmann L., Trübenbacher E. Formale kinetische theorie vongasgemischen aus anregbaren molekulen // Z. Naturforsch, V. 17a,P.364, 1962.115. Wang Chang C.S. and Uhlenbeck G.E. Transport phenomena in polyatomicgases // CM-681, University of Michigan Research Report, 1951.116. Wang Chang C.S., Uhlenbeck G.E. and de Boer J.
The heat conductivityand viscosity of polyatomic gases // In J. de Boer and G.E. Uhlenbeckeditors, Studies Statistical Mechanics, V. 2. North-Holland, Amsterdam,1964.117. Wright J., Bose D., Palmer G.E., Levin E. Recommended collision integralsfor transport property computations, part 1: air species // AIAA Journal,V.43, № 12, P.
2558-2564, 2005.109ПРИЛОЖЕНИЕ1*. Кустова Е.В., Мехоношина М.А. Релаксационное давление в смесиN2 /N с учетом неравновесной реакции диссоциации // ВЕСТНИКСАНКТ-ПЕТЕРБУРГСКОГО УНИВЕРСИТЕТА. СЕРИЯ 1: МАТЕМАТИКА, МЕХАНИКА, АСТРОНОМИЯ, 2012. № 1. С. 86-952*. Kustova E.V., Makarkin D.V, Mekhonoshina M.A. Normal Mean Stressin Non-Equilibrium Viscous N2/N Flows with Dissociation and ElectronicExcitation // AIP Conference Proceedings, 2012. V. 1501, P. 1086-1093.3*. Istomin V.A., Kustova E.V., Mekhonoshina M.A. Eucken correction inhigh-temperature gases with electronic excitation // Journal of ChemicalPhysics, 2014.
V. 140, № 18. P. 184311.4*. Kunova O.V., Kustova E.V., Mekhonoshina M.A., Nagnibeda E.A. Theinfluence of state-to-state kinetics on diffusion and heat transfer behindshock waves // AIP Conference Proceedings, 2014. V. 1628, P. 1202-1209.5*. Istomin V.A., Kustova E.V., Mekhonoshina M.A. Validity of Euckenformula and Stokes’ viscosity relation in high-temperature electronicallyexcited gases // AIP Conference Proceedings, 2014. V. 1628, P. 1229-1236.6*. Кунова О.В., Мехоношина М.А.
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