Vibrational Relaxation Measurements of Carbon Monoxide in a Shock-Tube Expansion Wave
T. Ian Mclaren,John P. Appleton +1 more
TLDR
In this article, a novel technique has been developed for use in the study of collisional energy transfer and chemical reaction rates in rapidly cooled gases, where the shock heated test gas sample is stationary during the cooling process so that the temporal behavior of a particular nonequilibrium property may be continuously monitored.Abstract:
A novel technique has been developed for use in the study of collisional energy transfer and chemical reaction rates in rapidly cooled gases. The principal feature is that the shock heated test gas sample is stationary during the cooling process so that the temporal behavior of a particular nonequilibrium property may be continuously monitored. The technique has been applied to the measurement of the vibrational de‐excitation rate of carbon monoxide in an argon heat bath, using the fundamental infrared emission band of CO to follow its vibrational temperature throughout the expansion. In contrast to some recent investigations which indicate enhanced vibrational de‐excitation rates, the present experiments show that when translation–vibration collisions control the relaxation process the characteristic vibrational relaxation time of carbon monoxide diluted in argon is the same no matter whether it is measured in a compression (shock wave) or expansion environment.read more
Citations
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Journal ArticleDOI
Rate parameters for coupled vibration-dissociation in a generalized SSH approximation
TL;DR: In this paper, a theoretical study of vibrational excitations and dissociations of nitrogen undergoing a nonequilibrium relaxation process upon heating and cooling is reported, and the rate coefficients for collisional induced vibrational transitions and transitions from a bound vibrational state into a dissociative state are calculated using an extension of the theory originally proposed by Schwarz (SSH) et al. (1952).
Journal ArticleDOI
Validation of Multitemperature Nozzle Flow Code
Chul Park,Seung-Ho Lee +1 more
TL;DR: In this paper, a computer code nozzle in n-temperatures (NOZNT) was proposed to calculate one-dimensional flows of partially dissociated and ionized air in an expanding nozzle.
Rate parameters for coupled vibration-dissociation in a generalized SSH approximation. [Schwarz, Slawsky, and Herzfeld]
TL;DR: In this article, a theoretical study of vibrational excitations and dissociations of nitrogen undergoing a nonequilibrium relaxation process upon heating and cooling is reported, and the rate coefficients for collisional induced vibrational transitions and transitions from a bound vibrational state into a dissociative state are calculated using an extension of the theory originally proposed by Schwarz (SSH) et al. (1952).
Proceedings ArticleDOI
Validation of multi-temperature nozzle flow code NOZNT
Chul Park,Seung-Ho Lee +1 more
TL;DR: In this paper, a computer code NOZNT (Nozzle in n-Temperatures), which calculates one-dimensional flows of partially dissociated and ionized air in an expanding nozzle, is tested against five existing sets of experimental data, including the sodium line reversal and electron temperature and density data, both obtained in a shock tunnel, and the spectroscopic emission data, electron beam data on vibrational temperature, and mass-spectrometric species concentration data, all obtained in arc-jet wind tunnels.
Journal ArticleDOI
Vibrational Relaxation of CO in Nonequilibrium Nozzle Flow, and the Effect of Hydrogen Atoms on CO Relaxation
TL;DR: In this paper, the vibrational relaxation of carbon monoxide was studied under conditions of rapid nonequilibrium expansion by using a shock tunnel to generate a nozzle flow with stagnation temperatures and pressures of 2000-4500°K and 5-15 atm, respectively.
References
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Systematics of Vibrational Relaxation
TL;DR: In this article, a large number of data points for the vibrational relaxation time (pτv in atm sec) of simple systems have been logarithmically plotted vs (T°K)-⅓.
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Useful Representations for Measurements of Spectral Band Absorption
TL;DR: In this article, three different methods are discussed for the representation of laboratory measurements of spectral band absorption, and the regions of validity of each of these approximations are given for the Elsasser and statistical models.
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Shock‐Tube Study of Vibrational Relaxation in Carbon Monoxide for the Fundamental and First Overtone
TL;DR: In this paper, the rate of vibrational excitation in rapidly heated CO has been determined for the temperature range 1100°-2500°K by observation of infrared emission behind incident shocks.
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Vibrational relaxation of anharmonic oscillator molecules: Relaxation under isothermal conditions
TL;DR: In this paper, the problem of the vibrational relaxation of a system of anharmonic oscillator molecules has been analyzed numerically, using transition probabilities similar to those calculated by Schwartz et al. They show that, during vibrational excitation, the relaxation rate is only slightly different from that predicted by Landau and Teller, for harmonic oscillators.
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Vibrational Fluorescence of Carbon Monoxide
TL;DR: In this paper, the rate of the quenching reaction CO (v = 1)+M→CO (v=0)+M has been determined from Stern-Volmer quench curves for the collision partners H2, HD, D2, He, Ne, and O2.