Exothermic gas-phase reactors as the cause of multitemperature flows of polyatomic gases

1. V. N, Zhigulev, “Equations of physical hydrodynamics,” Inzh. Zh.,3, No. 1 (1963).

2. M. I. Kogan, Dynamics of Low-Density Gases [in Russian], Nauka, Moscow (1967).

   Google Scholar 

3. G. Andersen, “Derivation of the equations of hydrodynamics from Boltzmann's equation,” in: Elastic Processes in Gases and Plasmas [Russian translation], A. R. Hochstim (ed.), Atomizdat, Moscow (1972).

   Google Scholar 

4. V. P. Silin, An Introduction to the Kinetic Theory of Gases [in Russian], Nauka, Moscow (1971).

   Google Scholar 

5. A. V. Gurevich and A. B. Shvartsburg, The Nonlinear Theory of Radiowave Propagation in the Ionosphere [in Russian], Nauka, Moscow (1973).

   Google Scholar 

6. A. I. Osipov and E. V. Stupochenko, “Deviations from Maxwellian distributions in chemical reactions: a reacting one-component system in a heavy-gas thermostat,” Teor. Eksp. Khim.,6, No. 6 (1970).

7. J. Keizer, “Steady state theory of hot atom reactions,” J. Chem. Phys.,58, 4524 (1973).

   Google Scholar 

8. H. E. Riley and H. K. Matzen, “Non-Maxwellian H and F velocity distributions in an H₂-F₂ reaction,” J. Chem. Phys.,63, No. 11 (1975).

9. K. Koura, “Relaxation of hot atoms with chemical reaction,” Rarefied Gasdynamics, Tenth Symposium, Part 2, New York (1977).

10. K. Koura, “Nonequilibrium velocity distributions and reaction rate in hot-atom reactions,” J. Chem. Phys.,65, No. 10 (1976).

11. V. S. Galkin, M. N. Kogan, and N. K. Makashev, “A generalized Chapman-Enskog method. Part 1. The equations of nonequilibrium gasdynamics. Part 2. The equations for a multivelocity multitemperature gas mixture,” Uch. Zap. TsAGI,5, No. 5 (1974);6, No. 1 (1975).

12. V. S. Galkin, M. N. Kogan, and N. K. Makashev, “The generalized Chapman-Enskog method,” Dokl. Akad. Nauk SSSR,220, No. 2 (1975).

13. N. K. Makashev, “Features of the generalized Chapman-Enskog method,” Tr. TsAGI, Issue 1742 (1976).

14. V. A. Matsuk and V. A. Rykov, “The Chapman-Enskog method for a gas mixture,” Dokl. Akad. Nauk SSSR,223, No. 1 (1977).

15. V. A. Rykov and V. N. Skobelkin, “Macroscopic description of the motion of a gas with rotational degrees of freedom,” Izv. Akad. Nauk SSSR, Mekh. Zhidk. Gaza, No. 1 (1978).

16. M. N. Kogan and N. K. Makashev, “Construction of the equations of gasdynamics for a polyatomic gas with any relation between the rates of the elastic and inelastic processes,” Izv. Akad. Nauk SSSR, Mekh. Zhidk. Gaza, No. 2 (1978).

17. V. A. Matsuk, “The Chapman-Enskog method for a chemically reacting gas mixture with internal degrees of freedom,” Zh. Vychisl. Mat. Mat. Fiz.,18, No. 4 (1978).

18. V. A. Matsuk and V. A. Rykov, “The Chapman-Enskog method for a multivelocity multitemperature reacting gas mixture,” Zh. Vychisl. Mat. Mat. Fiz.,18, No. 5 (1978).

19. J. Light, J. Ross, and C. Schuler, “Reaction cross sections, rate constants, and microscopic reversibility,” in: Elastic Processes in Gases and Plasmas [Russian translation], A. R. Hochstim (ed.), Atomizdat, Moscow (1972).

    Google Scholar 

20. S. Chapman and T. G. Cowling, Mathematical Theory of Non-Uniform Gases, Cambridge Univ. Press (1970).

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