Consistent Comparison of Macroscopic and State-to-State Kinetics in Hypersonic Flows

Colonna, G.; D’Ambrosio, Domenic; Capitelli, M.

doi:10.2514/6.2007-3906

Cited by 3 publications

(2 citation statements)

References 30 publications

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“…Details about the used thermochemical models and numerical method can be found in [16]. The numerical prediction aims at reproducing one of the experiments conducted in the NASA Ames EAST facility nozzle by Sharma, et al [17,18].…”

Section: State-to-state Computationsmentioning

confidence: 99%

Different Approximation Levels in Using CFD for the Design of Hypersonic Vehicles

Schettino¹,

D’Ambrosio²

2014

TOPPJ

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Abstract:In this paper the importance of using accurate CFD simulations in the design of hypersonic vehicles is stressed. The attention is focused on the one hand on the need to providing the vehicle designer with the estimated error bars together with the nominal values of the design parameters. On the other hand it is underlined how, in the different design phases, different levels of accuracy can be used, from simple inviscid computations to complex viscous non-equilibrium modellization, depending on the problem that must be solved. Then, the attention is focused on the kinetic models, from the classic macroscopic to the advanced models based on the state-to-state approach. Some examples of test cases that were used in the last years to validate CFD codes with respect to the kinetic modeling are presented, with the aim of emphasizing the potential advantages in using the state-to-state approach. Finally, preliminary results of the numerical rebuilding of wind tunnel test cases that are currently being performed in the framework of the Phys4Entry Project for code validation are shown.

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Section: State-to-state Computationsmentioning

confidence: 99%

Different Approximation Levels in Using CFD for the Design of Hypersonic Vehicles

Schettino¹,

D’Ambrosio²

2014

TOPPJ

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“…This model consists in writing a continuity equation for the population of each vibrational level of molecules, determining species densities and their internal distributions [2], including not only vibrational states, but also electronically excited states [3] as well as non-maxwellian electron energy distribution functions (EEDF) by solving an adequate Boltzmann equation [4,5]. With few exceptions (see [6,7,8]), applications of the STS approach to high enthalpy flow simulation have been very limited, due to the significant computing time required to conduct even 1-D simulations [9,10,11].…”

Section: Introductionmentioning

confidence: 99%

3D nozzle flow simulations including state-to-state kinetics calculation

Cutrone

Tuttafesta

Capitelli

et al. 2014

AIP Conference Proceedings

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In supersonic and hypersonic flows, thermal and chemical non-equilibrium is one of the fundamental aspects that must be taken into account for the accurate characterization of the plasma. In this paper, we present an optimized methodology to approach plasma numerical simulation by state-to-state kinetics calculations in a fully 3D Navier-Stokes CFD solver. Numerical simulations of an expanding flow are presented aimed at comparing the behavior of state-to-state chemical kinetics models with respect to the macroscopic thermochemical non-equilibrium models that are usually used in the numerical computation of high temperature hypersonic flows. The comparison is focused both on the differences in the numerical results and on the computational effort associated with each approach.

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Influences of Molecular Rotation on Vibrational Kinetics and Dissociation of N2

Fujita

2010

48th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition

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Consistent Comparison of Macroscopic and State-to-State Kinetics in Hypersonic Flows

Cited by 3 publications

References 30 publications

Different Approximation Levels in Using CFD for the Design of Hypersonic Vehicles

Different Approximation Levels in Using CFD for the Design of Hypersonic Vehicles

3D nozzle flow simulations including state-to-state kinetics calculation

Influences of Molecular Rotation on Vibrational Kinetics and Dissociation of N2

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