Transport properties at high temperatures of CO2-N2-O2-Ar gas mixtures for planetary entry applications, Volume 5476
Jerry Stevenson Lee, Percy J. Bobbitt, Langley Research Center, United States. National Aeronautics and Space Administration
National Aeronautics and Space Administration, 1969 - Science - 114 pages
Transport properties calculated by Chapman-Enskog theory for high temperature-gas mixtures in planetary entry applications.
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air with approximate Amdur aNOdD Appendix A Obtained approximate calculations argon atoms calculation of nondimensional calculations and previous carbon dioxide Carbon interactions center of mass Chem Chemical Equilibrium CO2 with approximate collision integrals combination rules Comparison of full-equation conductivity of CO2 cosh curve deviation diffusion dissociation electron volts enthalpy equa exp-6 potential exponential repulsive potential frozen conductivity full equations full-equation calculation Gas Mixtures Hansen ref Hansen's High Appendix high-temperature potentials Hirschfelder interaction potential kinetic theory Langley Research Center low-temperature potentials Mars model atmosphere Mason ref mixture specific heat mole fractions molecular NASA nitrogen nondimensional reactive conductivity nondimensional viscosity Obtained by averaging parameter particles percent Phys polyatomic potential eq Prandtl number present pressure previous results reactive contribution reference 19 rows and columns second approximation sinh stoichiometric coefficient temperature range Thermodynamic Thermodynamic Properties tion total thermal conductivity translational conductivity transport properties Vanderslice Variation of nondimensional viscosity data Yos ref