Heat Conductivity of Polyatomic and Polar Gases
- 15 March 1962
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 36 (6), 1622-1639
- https://doi.org/10.1063/1.1732790
Abstract
The formal kinetic theory of Wang Chang and Uhlenbeck and of Taxman has been used to derive explicit expressions for the heat conductivity of polyatomic and polar gases. By systematic inclusion of terms involving inelastic collisions the usual modified Eucken expression is derived as a first approximation, and as a second approximation an expression involving the relaxation times for various internal degrees of freedom (as well as the viscosity, diffusion coefficients, and heat capacity). For polar gases a second effect is often important in that a resonant exchange of rotational energy is possible. The comparison of experimental results with those calculated using empirical values of relaxation times is generally satisfactory, and most of the previously noted anomalies in the ratio f=λM/ηCv are accounted for quantitatively.Keywords
This publication has 39 references indexed in Scilit:
- Measurement of the Thermal Conductivities of Gases at High TemperaturesJournal of Heat Transfer, 1960
- Classical Theory of Transport Phenomena in Dilute Polyatomic GasesPhysical Review B, 1958
- The mobilities of ions in their parent gasesPhilosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1958
- Temperature Dependence of Ion Mobilities in Helium, Neon, and ArgonPhysical Review B, 1957
- Inelastic collisions between atoms I. General theoretical considerationsProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1953
- Relationships Between Transport Properties of GasesAmerican Journal of Physics, 1952
- Reibung in mäßig verdünnten Gasen als Folge verzögerter Einstellung der EnergieThe European Physical Journal A, 1949
- The Heat Capacity of Methane and its Halogen Derivatives from Spectroscopic DataJournal of the American Chemical Society, 1935
- Heat Capacity Curves of the Simpler Gases. I. Heat Capacity, Entropy and Free Energy of Gaseous Nitric Oxide from Near Zero Absolute to 5000°K.1Journal of the American Chemical Society, 1933
- Die Reibung, Wärmeleitung und Diffusion in Gasmischungen XII. Gasreibung bei höheren TemperaturenAnnalen der Physik, 1930