Modeling of dissociation–recombination in nozzles using strongly non-equilibrium vibrational distributions

Chikhaoui, A.; Нагнибеда, Е. А.; Кустова, Е. В.; Alexandrova, T.Yu.

doi:10.1016/s0301-0104(00)00345-1

Cited by 21 publications

(6 citation statements)

References 18 publications

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“…Simplified models of vibrational-chemical kinetics make it possible to express distribution functions in terms of a few number of macroscopic parameters and, consequently, reduce a number of governing equations, therefore they are attractive for a practical use. Multitemperature approaches for reacting mixtures are derived from the kinetic theory and applied for expanding and shock heated air flows in [32,56,3], recently reduced models for the state-to-state kinetics in hypersonic flows have been proposed in [57][58][59].…”

Section: Comparison Of the State-to-state And Simplified Flow Descripmentioning

confidence: 99%

State-to-state description of reacting air flows behind shock waves

Kunova

Нагнибеда

2014

Chemical Physics

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Section: Comparison Of the State-to-state And Simplified Flow Descripmentioning

confidence: 99%

State-to-state description of reacting air flows behind shock waves

Kunova

Нагнибеда

2014

Chemical Physics

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“…Under condition (4) using the generalized Chapman-Enskog method one can derive the closed set of equations for vibrational level populations n i , atomic number density n at , gas velocity v and gas temperature T describing a nonequilibrium gas flow in the state-to-state approximation [6,5,8]. For A 2 /A mixture these equations have the form:…”

Section: Vt (Tv) and Vv Vibrational Energy Transitionsmentioning

confidence: 99%

“…This distribution has been proposed first for a one-component gas as an approximate solution of master equations for level populations [9], then it has been derived from the kinetic theory in [10]. Recently this distribution has been used for modelling of non-equilibrium reacting mixture flows [8].…”

Section: Quasi-stationary Modelsmentioning

confidence: 99%

Non-Equilibrium Kinetics and Transport Properties in Reacting Flows in Nozzles

Alexandrova¹,

Chikhaoui²,

Кустова³

et al. 2003

AIP Conference Proceedings

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Non-equilibrium vibration-dissociation kinetics, transport properties and dissociation rate coefficients in expanding flows are studied on the basis of different kinetic theory approaches: state-to-state, multi-temperature and one-temperature ones. The limits of validity of more simple models are discussed, the influence of non-equilibrium vibrational distributions, initial conditions, nozzle profile on the macroscopic parameters, heat transfer and reaction rates is investigated.

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“…Detailed information on the dynamics and kinetics of both atom-molecule (AM) and molecule-molecule (MM) collisions are of key importance in accurate modeling of aerothermodynamics, combustion, laser and plasma physics [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19]. This is due to the presence of conditions of strong mechanical, thermal and chemical non-equilibrium.…”

Section: Introductionmentioning

confidence: 99%

Comparisons and scaling rules between N+N₂and N₂+N₂collision induced dissociation cross sections from atomistic studies

Esposito¹,

Garcı́a²,

Laganá³

2017

Plasma Sources Sci. Technol.

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Quantitative knowledge of elementary processes involved in plasmas are key to successfully perform accurate kinetic simulations. The issue is the huge amount of data to treat, both in the dynamical calculation and in the kinetic simulation. The aim of this paper is to study the dissociation in atom-molecule (AM) and molecule-molecule (MM) collisions involving nitrogen, obtained by molecular dynamics calculations considering vibrational states in the range 10-50 and collision energy up to 10eV, in order to formulate suitable scaling laws resulting in less expensive computational procedures and easier to handle treatments in kinetic simulations. It is shown that, while a direct substitution of MM dissociation cross sections with AM ones might be acceptable only at very high collision energy, scaling laws application allows to obtain quite good results on almost the whole energy range of interest.

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Modeling of dissociation–recombination in nozzles using strongly non-equilibrium vibrational distributions

Cited by 21 publications

References 18 publications

State-to-state description of reacting air flows behind shock waves

State-to-state description of reacting air flows behind shock waves

Non-Equilibrium Kinetics and Transport Properties in Reacting Flows in Nozzles

Comparisons and scaling rules between N+N₂and N₂+N₂collision induced dissociation cross sections from atomistic studies

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Modeling of dissociation–recombination in nozzles using strongly non-equilibrium vibrational distributions

Cited by 21 publications

References 18 publications

State-to-state description of reacting air flows behind shock waves

State-to-state description of reacting air flows behind shock waves

Non-Equilibrium Kinetics and Transport Properties in Reacting Flows in Nozzles

Comparisons and scaling rules between N+N2and N2+N2collision induced dissociation cross sections from atomistic studies

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Comparisons and scaling rules between N+N₂and N₂+N₂collision induced dissociation cross sections from atomistic studies