Add to ORKGApproximations applicable to the radiating, reacting, and conducting stagnation region of a hypervelocity vehicle were incorporated into a method for rapidly obtaining approximate solutions. This solution utilizes a coordinate system based upon the origin of the radiative losses and includes in a phenomenologically correct manner the effects of chemical and thermal nonequilibrium, and nonequilibrium, nongray radiative transfer. Results were presented which demonstrate the usefulness of the method and indicate which radiation parameters require further study and definition. Excellent comparisons were obtained with published results for the Fire2 data. An axisymmetric nonequilibrium inverse method was modified and extended and used to investi...
Convective and radiative heat transfer to entry vehicles with ablative heat shiel
Research was performed in the area of computational modeling and application of hypersonic, high-ent...
Results are reported for an investigation into the methods by which energy transfer is calculated in...
At the present time the efforts on this project are organized into two areas: the development of an ...
A nonequilibrium, axisymmetric, Navier-Stokes flow solver with coupled radiation has been developed ...
The conservation equations for simulating hypersonic flows in thermal and chemical nonequilibrium an...
Development of an algorithm which will allow nonequilibrium flow field codes to be coupled to radiat...
A nonequilibrium radiative heating prediction method has been used to evaluate several energy exchan...
The purpose of this research was to develop a highly accurate computational method for calculating t...
A method for predicting radiation adsorption and emission coefficients in thermochemical nonequilibr...
Several conceptual designs for vehicles that would fly in the atmosphere at hypersonic speeds have b...
The period from Jan. 1993 thru Aug. 1993 is covered. The primary tasks during this period were the d...
The primary tasks performed are: (1) the development of a second order local thermodynamic nonequili...
In this grant period, the focus has been on the effects of thermo-chemical nonequilibrium in low-den...
During atmospheric entry, a spacecraft's aeroshell uses a thermal protection system (TPS) to withsta...
Convective and radiative heat transfer to entry vehicles with ablative heat shiel
Research was performed in the area of computational modeling and application of hypersonic, high-ent...
Results are reported for an investigation into the methods by which energy transfer is calculated in...
At the present time the efforts on this project are organized into two areas: the development of an ...
A nonequilibrium, axisymmetric, Navier-Stokes flow solver with coupled radiation has been developed ...
The conservation equations for simulating hypersonic flows in thermal and chemical nonequilibrium an...
Development of an algorithm which will allow nonequilibrium flow field codes to be coupled to radiat...
A nonequilibrium radiative heating prediction method has been used to evaluate several energy exchan...
The purpose of this research was to develop a highly accurate computational method for calculating t...
A method for predicting radiation adsorption and emission coefficients in thermochemical nonequilibr...
Several conceptual designs for vehicles that would fly in the atmosphere at hypersonic speeds have b...
The period from Jan. 1993 thru Aug. 1993 is covered. The primary tasks during this period were the d...
The primary tasks performed are: (1) the development of a second order local thermodynamic nonequili...
In this grant period, the focus has been on the effects of thermo-chemical nonequilibrium in low-den...
During atmospheric entry, a spacecraft's aeroshell uses a thermal protection system (TPS) to withsta...
Convective and radiative heat transfer to entry vehicles with ablative heat shiel
Research was performed in the area of computational modeling and application of hypersonic, high-ent...
Results are reported for an investigation into the methods by which energy transfer is calculated in...