Global (reactive + non-reactive) quasiclassical state-specific rate coefficients for the vibrational excitation and deexicitation of nitrogen molecules by collision with nitrogen atoms have been used to model a reacting flow. The one-dimensional model used describes the relaxation of N2 vibrational distributions in the boundary layer surrounding a shuttle reentering the atmosphere. The results single out the strong non-equilibrium character of the vibrational distributions along the coordinate normal to the shuttle surface caused by the dissociation-recombination processes. The results also show the dependence of the vibrational distributions upon inclusion in the model of state-specific N + N2(upsilon) rates.
The effect of N+N2 collisions on the non-equilibrium vibrational distributions of nitrogen under reentry conditions / Armenise, I.; Capitelli, M.; Celiberto, R.; Colonna, G.; Gorse, C.; Laganà, A.. - In: CHEMICAL PHYSICS LETTERS. - ISSN 0009-2614. - STAMPA. - 227:1-2(1994), pp. 157-163. [10.1016/0009-2614(94)00804-3]
The effect of N+N2 collisions on the non-equilibrium vibrational distributions of nitrogen under reentry conditions
Celiberto, R.;
1994-01-01
Abstract
Global (reactive + non-reactive) quasiclassical state-specific rate coefficients for the vibrational excitation and deexicitation of nitrogen molecules by collision with nitrogen atoms have been used to model a reacting flow. The one-dimensional model used describes the relaxation of N2 vibrational distributions in the boundary layer surrounding a shuttle reentering the atmosphere. The results single out the strong non-equilibrium character of the vibrational distributions along the coordinate normal to the shuttle surface caused by the dissociation-recombination processes. The results also show the dependence of the vibrational distributions upon inclusion in the model of state-specific N + N2(upsilon) rates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
