The unsteady, viscous, supersonic flow over a spike-nosed body of revolution is numerically investigated by solving the Navier-Stokes equations. The time-accurate computations are performed employing an implicit algorithm based on the second-order time-accurate LU-SGS scheme with the incorporation of a subiteration procedure to maintain time accuracy. The characteristics of the flow field for a Mach number of 3.0, Reynolds number of 7.87 x 10(6)/m, and angles of attack of 5 and 10 degrees are described. Self-sustained asymmetric shock wave oscillations were observed in the numerical computations for these angles of attack. The main characteristic of the flow field, as well as its influence on drag coefficient is discussed
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...
A formulation of the complete Navier-Stokes problem for a viscous hypersonic flow in general curvili...
A supersonic turbulent flow over an ogive-cylinder-flare has been solved numerically. The calculatio...
The three-dimensional flow field around blunted bodies traveling at supersonic speed is computed usi...
ABSTRACT In this paper, 3-Dsupersonic flow around two types of wings is solved using a new algorithm...
The three-dimensional ideal gas flow in the shock layer of a blunted supersonic cone at an angle of ...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
AbstractThe obvious unsteady flow characteristics of the flow field around the spiked blunt-body hav...
A numerical method has been developed for solving the complete compressible Navier-Stokes equations....
The present paper reports some preliminary numerical results for the supersonic/hypersonic unsteady...
The flow fields around a large apex angle. spiked blunt cone have been analyzed at a hypersonic Mach...
The flow of the compressible gas is investigated by means of the developed finite-difference compute...
This paper presents the results of numerical simulations of supersonic flows with shock waves in a d...
Computational Fluid Dynamic analysis has been carried out on Single, Double and Triple Aero-Disk Spi...
Aerospace vehicles such as re-entry vehicles, satellite launching vehicles, missiles, rockets move a...
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...
A formulation of the complete Navier-Stokes problem for a viscous hypersonic flow in general curvili...
A supersonic turbulent flow over an ogive-cylinder-flare has been solved numerically. The calculatio...
The three-dimensional flow field around blunted bodies traveling at supersonic speed is computed usi...
ABSTRACT In this paper, 3-Dsupersonic flow around two types of wings is solved using a new algorithm...
The three-dimensional ideal gas flow in the shock layer of a blunted supersonic cone at an angle of ...
A numerical method is presented for the calculation of steady, three-dimensional, viscous, compressi...
AbstractThe obvious unsteady flow characteristics of the flow field around the spiked blunt-body hav...
A numerical method has been developed for solving the complete compressible Navier-Stokes equations....
The present paper reports some preliminary numerical results for the supersonic/hypersonic unsteady...
The flow fields around a large apex angle. spiked blunt cone have been analyzed at a hypersonic Mach...
The flow of the compressible gas is investigated by means of the developed finite-difference compute...
This paper presents the results of numerical simulations of supersonic flows with shock waves in a d...
Computational Fluid Dynamic analysis has been carried out on Single, Double and Triple Aero-Disk Spi...
Aerospace vehicles such as re-entry vehicles, satellite launching vehicles, missiles, rockets move a...
The numerical simulation of hypersonic flows past blunt bodies by means of shock-capturing solvers i...
A formulation of the complete Navier-Stokes problem for a viscous hypersonic flow in general curvili...
A supersonic turbulent flow over an ogive-cylinder-flare has been solved numerically. The calculatio...