Add to ORKGThe wake flow field developed by the Galileo probe as it enters the Jovian atmosphere was modeled. The wake produced by the probe is highly energetic, yielding both convective and radiative heat inputs to the base of the probe. A component mathematical model for the inviscid near and far wake, the viscous near and far wake, and near wake recirculation zone was developed. Equilibrium thermodynamics were used for both the ablation and atmospheric species. Flow fields for three entry conditions were calculated. The near viscous wave was found to exhibit a variable axial pressure distribution with the neck pressure approximately three times the base pressure. Peak wake flow field temperatures were found to be in proportion to forebody post shoc...
Radiative transfer equations are derived under nonequilibrium conditions which include multilevel en...
Motivated by the work of Guillot, we present a semi-analytical formalism for calculating the tempera...
Quasi-geostrophic, two layer models of the Jovian atmosphere are under development; these may be use...
The base heating problem in the Jovian probe was examined. The entire wake flowfield is defined to c...
The influence of changes in precursor region flow properties (resulting from the absorption of radia...
Flow properties and aerodynamics are computed with a direct simulation Monte Carlo (DSMC) method for...
The influence of changes in the precursor region flow properties (resulting from absorption of the r...
A theoretical model is derived to determine the average thermodynamic properties in the expanding re...
Jovian atmosphere and environment - composition, structure, and photometric properties of atmosphere...
The influence of precursor heating on viscous chemical nonequilibrium radiating flow around a Jovian...
The influence of the body and shock slip conditions on the heating of a Jovian entry body is investi...
The fluid dynamic structure and stability of the boundary layer and shock layer ahead of a highly bl...
The results of surveys of the near and far wake of the Galileo Probe are presented for Mach numbers ...
This research program has dealt with two projects in the field of planetary atmosphere dynamics and ...
Formulation is presented to demonstrate the significance of a simplified radiation model in investig...
Radiative transfer equations are derived under nonequilibrium conditions which include multilevel en...
Motivated by the work of Guillot, we present a semi-analytical formalism for calculating the tempera...
Quasi-geostrophic, two layer models of the Jovian atmosphere are under development; these may be use...
The base heating problem in the Jovian probe was examined. The entire wake flowfield is defined to c...
The influence of changes in precursor region flow properties (resulting from the absorption of radia...
Flow properties and aerodynamics are computed with a direct simulation Monte Carlo (DSMC) method for...
The influence of changes in the precursor region flow properties (resulting from absorption of the r...
A theoretical model is derived to determine the average thermodynamic properties in the expanding re...
Jovian atmosphere and environment - composition, structure, and photometric properties of atmosphere...
The influence of precursor heating on viscous chemical nonequilibrium radiating flow around a Jovian...
The influence of the body and shock slip conditions on the heating of a Jovian entry body is investi...
The fluid dynamic structure and stability of the boundary layer and shock layer ahead of a highly bl...
The results of surveys of the near and far wake of the Galileo Probe are presented for Mach numbers ...
This research program has dealt with two projects in the field of planetary atmosphere dynamics and ...
Formulation is presented to demonstrate the significance of a simplified radiation model in investig...
Radiative transfer equations are derived under nonequilibrium conditions which include multilevel en...
Motivated by the work of Guillot, we present a semi-analytical formalism for calculating the tempera...
Quasi-geostrophic, two layer models of the Jovian atmosphere are under development; these may be use...