A three-dimensional viscous marching analysis for supersonic inlets was developed. To verify this analysis several benchmark axisymmetric test configurations were studied and are compared to experimental data. Detailed two-dimensional results for shock-boundary layer interactions are presented for flows with and without boundary layer bleed. Three dimensional calculations of a cone at angle of attack and a full inlet at attack are also discussed and evaluated. Results of the calculations demonstrate the code's ability to predict complex flow fields and establish guidelines for future calculations using similar codes
A numerical study was performed to simulate the critical flow through a supersonic inlet. This flow ...
The theoretical analysis methods, potential flow, and boundary layer, used at Lewis are described. R...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
The flow fields in supersonic/hypersonic inlets are currently being studied at NASA Lewis Research C...
The influence of molecular transport is included in the computation by treating viscous and thermal ...
A method for computing three dimensional flow in supersonic inlets is described. An approximate set ...
A supersonic three-dimensional viscous forward-marching computer design code called PEPSIS is used t...
A series of inlet analysis codes (2-D, axisymmetric, 3-D) were developed which can analyze complicat...
The three-dimensional parabolized Navier-Stokes code has been used to investigate the flow through a...
A parabolized Navier-Stokes code was used to analyze a number of diffusers typical of a modern inlet...
The present study is a preliminary investigation into the behavior of the flow within a 28 degree to...
Hypersonic inlet research activity at NASA is reviewed. The basis is the experimental tests performe...
A Navier-Stokes computer code was validated using a number of two- and three-dimensional configurati...
A numerical procedure was developed to compute the inviscid super/hypersonic flow fields about compl...
Based on the potential flow model, computations were carried out for various three-dimensional inlet...
A numerical study was performed to simulate the critical flow through a supersonic inlet. This flow ...
The theoretical analysis methods, potential flow, and boundary layer, used at Lewis are described. R...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
The flow fields in supersonic/hypersonic inlets are currently being studied at NASA Lewis Research C...
The influence of molecular transport is included in the computation by treating viscous and thermal ...
A method for computing three dimensional flow in supersonic inlets is described. An approximate set ...
A supersonic three-dimensional viscous forward-marching computer design code called PEPSIS is used t...
A series of inlet analysis codes (2-D, axisymmetric, 3-D) were developed which can analyze complicat...
The three-dimensional parabolized Navier-Stokes code has been used to investigate the flow through a...
A parabolized Navier-Stokes code was used to analyze a number of diffusers typical of a modern inlet...
The present study is a preliminary investigation into the behavior of the flow within a 28 degree to...
Hypersonic inlet research activity at NASA is reviewed. The basis is the experimental tests performe...
A Navier-Stokes computer code was validated using a number of two- and three-dimensional configurati...
A numerical procedure was developed to compute the inviscid super/hypersonic flow fields about compl...
Based on the potential flow model, computations were carried out for various three-dimensional inlet...
A numerical study was performed to simulate the critical flow through a supersonic inlet. This flow ...
The theoretical analysis methods, potential flow, and boundary layer, used at Lewis are described. R...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...