The theoretical basis for well posed marching of a Parabolic Navier-Stokes (PNS) computational technique for supersonic flow is discussed and examples given to verify the analysis. It is demonstrated that stable computations can be made even with very small steps in the marching direction. The method is applied to cones at large angle of attack in high Reynolds number, supersonic flow. Streamline trajectories generated from the numerical solutions demonstrate the development of vortex structures on the lee side of the cone
The proper use of a computational fluid dynamics code requires a good understanding of the particula...
A noniterative, implicit, space-marching, finite-difference algorithm was developed for the steady t...
This thesis reports research carried out towards numerical simulation of hypersonic flows around spa...
Flows of relevance to new generation aerospace vehicles exist, which are weakly dependent on the str...
Two complementary procedures were developed to calculate the viscous supersonic flow over conical sh...
An overview of parabolic and PNS (Parabolized Navier-Stokes) methodology developed to treat highly c...
A new computer code for the solution of the three-dimensional parabolized Navier-Stokes (PNS) equati...
Flows of relevance to new generation aerospace vehicles exist, which are weakly de-pendent on the st...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
A procedure is presented, as well as some results, to calculate the flow over a generic fighter conf...
Three different approaches for efficiently computing supersonic flow fields with strong viscous/invi...
A computational fluid dynamics tool has been developed capable of analyzing the viscous supersonic/h...
In this lecture we will (1) develop the governing PNS (Parobolized Navier-Stokes) equations for idea...
An explicit, upwind algorithm was developed for the direct (noniterative) integration of the 3-D Par...
A new parabolized Navier-Stokes (PNS) code has been developed to compute the hypersonic, viscous che...
The proper use of a computational fluid dynamics code requires a good understanding of the particula...
A noniterative, implicit, space-marching, finite-difference algorithm was developed for the steady t...
This thesis reports research carried out towards numerical simulation of hypersonic flows around spa...
Flows of relevance to new generation aerospace vehicles exist, which are weakly dependent on the str...
Two complementary procedures were developed to calculate the viscous supersonic flow over conical sh...
An overview of parabolic and PNS (Parabolized Navier-Stokes) methodology developed to treat highly c...
A new computer code for the solution of the three-dimensional parabolized Navier-Stokes (PNS) equati...
Flows of relevance to new generation aerospace vehicles exist, which are weakly de-pendent on the st...
A numerical method for solving the parabolic approximation to the steady-state compressible Navier-S...
A procedure is presented, as well as some results, to calculate the flow over a generic fighter conf...
Three different approaches for efficiently computing supersonic flow fields with strong viscous/invi...
A computational fluid dynamics tool has been developed capable of analyzing the viscous supersonic/h...
In this lecture we will (1) develop the governing PNS (Parobolized Navier-Stokes) equations for idea...
An explicit, upwind algorithm was developed for the direct (noniterative) integration of the 3-D Par...
A new parabolized Navier-Stokes (PNS) code has been developed to compute the hypersonic, viscous che...
The proper use of a computational fluid dynamics code requires a good understanding of the particula...
A noniterative, implicit, space-marching, finite-difference algorithm was developed for the steady t...
This thesis reports research carried out towards numerical simulation of hypersonic flows around spa...