This research concerns the modeling and numerical solutions of the coupled system of compressible Navier-Stokes equations in cylindrical coordinates under conditions of equilibrium and nonequilibrium thermodynamics. The problem considered was the modeling of a high temperature diatomic gas N2 flowing through a converging-diverging high expansion nozzle. The problem was modeled in two ways. The first model uses a single temperature with variable specific heats as functions of this temperature. For the second model we assume that the various degrees of freedom all have a Boltzmann distribution and that there is a continuous redistribution of energy among the various degrees of freedom as the gas passes through the nozzle. Each degree of freed...
Results are reported for an investigation into the methods by which energy transfer is calculated in...
In this grant period, the focus has been on the effects of thermo-chemical nonequilibrium in low-den...
International audienceA numerical investigation is conducted to study an H2−O2 rocket nozzle flow in...
We consider the problem of modeling a high temperature diatomic gas N2 flowing through a converging-...
Flow of nitrogen gas through a converging-diverging nozzle is simulated. The flow is modeled using t...
The nonequilibrium viscous reactive flows over a simple and a double ellipse at a 30 degree angle of...
This study deals with a systematic investigation of nonequilibrium processes in supersonic combustio...
Results of a basic experiment on a high-expanding nozzle flow in hot gas conditions are presented an...
The final report on research between North Carolina State University and the NASA Ames Research Cent...
The simulation of the flow inside the propulsion system is of essential interest, for the design of ...
International audienceThermal and chemical nonequilibrium effects are investigated in hypersonic noz...
International audienceA vibrational collisional model based on the database of the University of Bar...
We examine the spatial linear stability of a shear layer in a hypervelocity flow where high temperat...
The heat transfer process in hypervelocity vehicles is dominated by nonequilibrium gas dynamics. One...
This study deals with a systematic investigation of nonequilibrium processes in supersonic combustio...
Results are reported for an investigation into the methods by which energy transfer is calculated in...
In this grant period, the focus has been on the effects of thermo-chemical nonequilibrium in low-den...
International audienceA numerical investigation is conducted to study an H2−O2 rocket nozzle flow in...
We consider the problem of modeling a high temperature diatomic gas N2 flowing through a converging-...
Flow of nitrogen gas through a converging-diverging nozzle is simulated. The flow is modeled using t...
The nonequilibrium viscous reactive flows over a simple and a double ellipse at a 30 degree angle of...
This study deals with a systematic investigation of nonequilibrium processes in supersonic combustio...
Results of a basic experiment on a high-expanding nozzle flow in hot gas conditions are presented an...
The final report on research between North Carolina State University and the NASA Ames Research Cent...
The simulation of the flow inside the propulsion system is of essential interest, for the design of ...
International audienceThermal and chemical nonequilibrium effects are investigated in hypersonic noz...
International audienceA vibrational collisional model based on the database of the University of Bar...
We examine the spatial linear stability of a shear layer in a hypervelocity flow where high temperat...
The heat transfer process in hypervelocity vehicles is dominated by nonequilibrium gas dynamics. One...
This study deals with a systematic investigation of nonequilibrium processes in supersonic combustio...
Results are reported for an investigation into the methods by which energy transfer is calculated in...
In this grant period, the focus has been on the effects of thermo-chemical nonequilibrium in low-den...
International audienceA numerical investigation is conducted to study an H2−O2 rocket nozzle flow in...