Lighthill's model of an ideal dissociating gas has been exploited to study three dimensional unsteady flows in the absence of dissipative mechanisms. Expressions for the tangent, principal normal and binormal vectors, curvature and torsion of streamlines, variations of pressure along streamlines and their principal normal and binormal have been calculated and dissociation effects have studied
In this paper the problem of shock structure in binary gas mixture is studied with assumption that ...
Calculations have been performed for the inviscid hypervelocity flow of nitrogen past a 15 degree se...
AbstractThis study proposes a quasi-one-dimensional model to predict the chemical non-equilibrium fl...
Lighthill's model of an ideal dissociating gas has been exploited to study three dimensional unstead...
Abstract. Lighthill's model of an ideal dissociating gas has been exploited to study three dime...
A pointed obstacle is assumed symmetrically placed with respect to a uniform supersonic flow ahead o...
Composition changes within the shock layer due to chemical reactions are considered. The Lighthill i...
Normal shock problems in high enthalpy flows are of special interests to aerodynamicists and fluid d...
In this paper the gradients of flow parameters and the expression for vorticity vector behind three-...
By neglecting viscosity, heat conduction and diffusion, a method for investigating the effect of dis...
We develop a compact dimensionless framework for the analysis of canonical thermo-chemical nonequili...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
Suitable forms of the equations for the flow of an inviscid, non-heat- conducting gas in which chem...
Theoretical results based on the methods of Freeman and Garr & Marrone show that the stand-off dista...
In this paper the problem of shock structure in binary gas mixture is studied with assumption that ...
Calculations have been performed for the inviscid hypervelocity flow of nitrogen past a 15 degree se...
AbstractThis study proposes a quasi-one-dimensional model to predict the chemical non-equilibrium fl...
Lighthill's model of an ideal dissociating gas has been exploited to study three dimensional unstead...
Abstract. Lighthill's model of an ideal dissociating gas has been exploited to study three dime...
A pointed obstacle is assumed symmetrically placed with respect to a uniform supersonic flow ahead o...
Composition changes within the shock layer due to chemical reactions are considered. The Lighthill i...
Normal shock problems in high enthalpy flows are of special interests to aerodynamicists and fluid d...
In this paper the gradients of flow parameters and the expression for vorticity vector behind three-...
By neglecting viscosity, heat conduction and diffusion, a method for investigating the effect of dis...
We develop a compact dimensionless framework for the analysis of canonical thermo-chemical nonequili...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
Suitable forms of the equations for the flow of an inviscid, non-heat- conducting gas in which chem...
Theoretical results based on the methods of Freeman and Garr & Marrone show that the stand-off dista...
In this paper the problem of shock structure in binary gas mixture is studied with assumption that ...
Calculations have been performed for the inviscid hypervelocity flow of nitrogen past a 15 degree se...
AbstractThis study proposes a quasi-one-dimensional model to predict the chemical non-equilibrium fl...