Add to ORKGThree dimensional solutions of a single expansion ramp nozzle are computed with the existing PARC computer code by solving the full Navier-Stokes equations. The computations are performed to simulate the non-axisymmetric nozzle flowfield in both the internal/external expansion regions and the exhaust plume in a quiescent ambient environment. Two different configurations of the nozzle at a pressure ratio NPR = 10 are examined. Numerical results of laminar flows are presented, and the wall pressure distributions are compared with the experimental data
The FORTRAN IV Program developed to analyze the flow field associated with scramjet exhaust systems ...
Multiple nozzle plume flow field is computed with a 3-D, Navier-Stokes solver. Numerical simulation ...
A translating throat single expansion-ramp nozzle (SERN) concept was designed to improve the off-des...
A Navier-Stokes computer code was validated using a number of two- and three-dimensional configurati...
A second order numerical method employing reference plane characteristics has been developed for the...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
An improved ability to predict external propulsive performance was incorporated into the three-dimen...
A three-dimensional subsonic aerodynamic panel code (VSAERO) was used to predict the effects of uppe...
The performance of a three-dimensional Navier-Stokes solution technique in predicting the transonic ...
This report summarizes work accomplished under Contract No. NAS1-12726 towards the development of co...
Flows through three reference nozzles have been calculated to determine the capabilities and limitat...
Numerical codes developed for the calculation of three-dimensional nozzle exhaust flow fields associ...
Flow in a generic ventral nozzle system was studied experimentally and analytically with a block ver...
A variable geometry, low aspect ratio, nonaxisymmetric, two dimensional, convergent-divergent exhaus...
Supersonic nozzles which operate at low Reynolds numbers and have large expansion ratios have very t...
The FORTRAN IV Program developed to analyze the flow field associated with scramjet exhaust systems ...
Multiple nozzle plume flow field is computed with a 3-D, Navier-Stokes solver. Numerical simulation ...
A translating throat single expansion-ramp nozzle (SERN) concept was designed to improve the off-des...
A Navier-Stokes computer code was validated using a number of two- and three-dimensional configurati...
A second order numerical method employing reference plane characteristics has been developed for the...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
An improved ability to predict external propulsive performance was incorporated into the three-dimen...
A three-dimensional subsonic aerodynamic panel code (VSAERO) was used to predict the effects of uppe...
The performance of a three-dimensional Navier-Stokes solution technique in predicting the transonic ...
This report summarizes work accomplished under Contract No. NAS1-12726 towards the development of co...
Flows through three reference nozzles have been calculated to determine the capabilities and limitat...
Numerical codes developed for the calculation of three-dimensional nozzle exhaust flow fields associ...
Flow in a generic ventral nozzle system was studied experimentally and analytically with a block ver...
A variable geometry, low aspect ratio, nonaxisymmetric, two dimensional, convergent-divergent exhaus...
Supersonic nozzles which operate at low Reynolds numbers and have large expansion ratios have very t...
The FORTRAN IV Program developed to analyze the flow field associated with scramjet exhaust systems ...
Multiple nozzle plume flow field is computed with a 3-D, Navier-Stokes solver. Numerical simulation ...
A translating throat single expansion-ramp nozzle (SERN) concept was designed to improve the off-des...