A three-dimensional Navier-Stokes code has been applied to the analysis of flow fields containing propulsive jets. Specifically, the application was made to a flow field containing a supersonic jet injected at an angle of 90 degrees to a subsonic free stream. Although wind tunnel data were available, the computational results were not readily comparable to the experimental data because of significant differences between the two plume trajectories. Reasons for the differences are suggested in the report and include: (1) incomplete convergence, (2) inadequate grid resolution in the high gradient regions, and (3) use of a low-order turbulence closure model
The objective is to develop, demonstrate, and document a coupled flow analysis procedure for computi...
A comparison of the NPARC, PAB, and WIND (previously known as NASTD) Navier-Stokes solvers is made f...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
The performance of a three-dimensional Navier-Stokes solution technique in predicting the transonic ...
Three-dimensional turbulent jets with rectangular cross-section are simulated with a finite-differen...
This report presents a unified method for subsonic and supersonic jet analysis using the three-dimen...
A series of calculations of a jet in crossflow using a three-dimensional finite difference model of ...
Three-dimensional viscous flow computations are presented for 90 deg injection angle jets in subsoni...
Flows through three reference nozzles have been calculated to determine the capabilities and limitat...
Three dimensional turbulent jets in crossflow at low to medium jet-to-crossflow velocity ratios are ...
Multiple nozzle plume flow field is computed with a 3-D, Navier-Stokes solver. Numerical simulation ...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
Direct numerical simulation using the full three dimensional, time dependent Navier-Stokes equations...
Three-dimensional, incompressible turbulent jets with rectangular and elliptical cross-section are s...
The numerical solution of the Navier-Stokes equations about three-dimensional configurations is revi...
The objective is to develop, demonstrate, and document a coupled flow analysis procedure for computi...
A comparison of the NPARC, PAB, and WIND (previously known as NASTD) Navier-Stokes solvers is made f...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...
The performance of a three-dimensional Navier-Stokes solution technique in predicting the transonic ...
Three-dimensional turbulent jets with rectangular cross-section are simulated with a finite-differen...
This report presents a unified method for subsonic and supersonic jet analysis using the three-dimen...
A series of calculations of a jet in crossflow using a three-dimensional finite difference model of ...
Three-dimensional viscous flow computations are presented for 90 deg injection angle jets in subsoni...
Flows through three reference nozzles have been calculated to determine the capabilities and limitat...
Three dimensional turbulent jets in crossflow at low to medium jet-to-crossflow velocity ratios are ...
Multiple nozzle plume flow field is computed with a 3-D, Navier-Stokes solver. Numerical simulation ...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
Direct numerical simulation using the full three dimensional, time dependent Navier-Stokes equations...
Three-dimensional, incompressible turbulent jets with rectangular and elliptical cross-section are s...
The numerical solution of the Navier-Stokes equations about three-dimensional configurations is revi...
The objective is to develop, demonstrate, and document a coupled flow analysis procedure for computi...
A comparison of the NPARC, PAB, and WIND (previously known as NASTD) Navier-Stokes solvers is made f...
A computer analysis was developed for calculating steady (or unsteady) three-dimensional aircraft co...