Add to ORKGNumerical codes developed for the calculation of three-dimensional nozzle exhaust flow fields associated with hypersonic airbreathing aircraft are described. Both codes employ reference plane grid networks with respect to three coordinate systems. Program CHAR3D is a characteristic code utilizing a new wave preserving network within the reference planes, while program BIGMAC is a finite difference code utilizing conservation variables and a one-sided difference algorithm. Secondary waves are numerically captured by both codes, while the underexpansion shock and plume boundary are treated discretely. The exhaust gas properties consist of hydrogen-air combustion product mixtures in local chemical equilibrium. Nozzle contours are treated by a ...
The SPARK3D and SPARK3D-PNS computer programs were developed to model 3-D supersonic, chemically rea...
The geometric data of the generic hypersonic vehicle configuration included body definitions and pre...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...
This report summarizes work accomplished under Contract No. NAS1-12726 towards the development of co...
A second order numerical method employing reference plane characteristics has been developed for the...
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 comprehensive computational fluid dynamics effort was conducted from 1987 to 1990 to properly desi...
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...
Three dimensional solutions of a single expansion ramp nozzle are computed with the existing PARC co...
A methodology is introduced for constructing numerical analogs of the partial differential equations...
A numerical procedure permitting the rapid determination of the internal performance of a class of s...
A finite difference method is developed for making detailed predictions of three dimensional subsoni...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
The SPARK3D and SPARK3D-PNS computer programs were developed to model 3-D supersonic, chemically rea...
The geometric data of the generic hypersonic vehicle configuration included body definitions and pre...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...
This report summarizes work accomplished under Contract No. NAS1-12726 towards the development of co...
A second order numerical method employing reference plane characteristics has been developed for the...
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 comprehensive computational fluid dynamics effort was conducted from 1987 to 1990 to properly desi...
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...
Three dimensional solutions of a single expansion ramp nozzle are computed with the existing PARC co...
A methodology is introduced for constructing numerical analogs of the partial differential equations...
A numerical procedure permitting the rapid determination of the internal performance of a class of s...
A finite difference method is developed for making detailed predictions of three dimensional subsoni...
A computer implemented numerical method for predicting the flow in and about an isolated three dimen...
The SPARK3D and SPARK3D-PNS computer programs were developed to model 3-D supersonic, chemically rea...
The geometric data of the generic hypersonic vehicle configuration included body definitions and pre...
A new upwind, parabolized Navier-Stokes (PNS) code has been developed to compute two- and three-dime...