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Transport algorithms for partially ionized and unmagnetized plasmas

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Analysis of the FIRE II Flight Experiment by Means of a Collisional Radiative Model

An accurate investigation of the behavior of electronically excited states of atoms and molecules in the post shock relaxation area is carried out by means of the Collisionalradiative model. The
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NONEQUILIBRIUM RADIATION MODELING FOR HUYGENS ENTRY

An electronically specific collisional radiative model is proposed to predict the populations of excited electronic states CN(A,B) and N2(A,B,C) in order to assess nonequilibrium radiation eects

Development of Mutation++: Multicomponent Thermodynamic and Transport Properties for Ionized Plasmas written in C++

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A model for inductive plasma wind tunnels

A numerical model for inductive plasma wind tunnels is developed. This model provides the flow conditions at the edge of a boundary layer in front of a thermal protection material placed in the

Kinetic Theory of Plasmas: Translational Energy

In the present contribution, we derive from kinetic theory a unified fluid model for multicomponent plasmas by accounting for the electromagnetic field influence. We deal with a possible thermal
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Fire II Flight Experiment Analysis by Means of a Collisional-Radiative Model

We study the behavior of the excited electronic states of atoms in the relaxation zone of one-dimensional airflows obtained in shock-tube facilities. A collisional-radiative model is developed,
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Coarse-grain model for internal energy excitation and dissociation of molecular nitrogen

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A Short Review of Ablative-Material Response Models and Simulation Tools

A review of the governing equations and boundary conditions used to model the response of ablative materials submitted to a high-enthalpy flow is proposed. The heritage of model-development efforts

A method for the direct numerical simulation of hypersonic boundary-layer instability with finite-rate chemistry

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