Anharmonic Effects on the Rate of Relaxation of Vibrational Energy in Rapidly Expanding Flows
- 1 November 1972
- journal article
- conference paper
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 57 (9) , 3763-3770
- https://doi.org/10.1063/1.1678842
Abstract
Detailed numerical results are presented for the time dependent vibrational relaxation process in the rapid expansion of anharmonic oscillators in nonequilibrium nozzle flows. Calculations for the expansion of CO, CO/Ar, and CO/N2 mixtures from high stagnation temperatures, in the range 2000–4500°K, are compared with previously reported experimental results. It is concluded that the effects of the anharmonicity of the molecules are unlikely to lead to an increase of more than a factor of 2 in the vibrational energy relaxation rate. A simple analytical result is derived in terms of the molecular constants and the expansion temperature ratio to predict the degree of distortion of the low level ``vibrational temperature'' which results from the anharmonicity.Keywords
This publication has 26 references indexed in Scilit:
- Interpretation of Sodium Line-Reversal Measurements in Rapid Expansions of NitrogenThe Journal of Chemical Physics, 1972
- Shock Tube Vibrational Relaxation Measurements: N2 Relaxation by H2O and the CO–N2 V–V RateThe Journal of Chemical Physics, 1972
- Measurements of CO Relaxation in an Unsteady Expansion WaveThe Journal of Chemical Physics, 1971
- Vibrational Relaxation of CO in Nonequilibrium Nozzle Flow, and the Effect of Hydrogen Atoms on CO RelaxationThe Journal of Chemical Physics, 1971
- Vibrational Relaxation Measurements of Carbon Monoxide in a Shock-Tube Expansion WaveThe Journal of Chemical Physics, 1970
- Vibrational Relaxation in Gas-Dynamic FlowsAnnual Review of Fluid Mechanics, 1970
- Observations of Vibration–Vibration Energy Pumping between Diatomic MoleculesNature, 1970
- Vibrational Relaxation of CO in Nonequilibrium Nozzle FlowThe Journal of Chemical Physics, 1968
- Spectrophotometric Measurements of the Vibrational Relaxation of CO in Shock-Wave and Nozzle Expansion-Flow EnvironmentsThe Journal of Chemical Physics, 1967
- A note on the variation of vibrational temperature along a nozzleJournal of Fluid Mechanics, 1962