This paper presents a new theory of hypersonic blunt-nose shock standoff, based on a compressibility coordinate transformation for inviscid flow. It embraces a wide range of nonequilibrium shock-layer chemistry and gas mixtures including ionization and freestream dissociation. An extended binary scaling property of the analysis is also demonstrated. Specific application is made here to the family of arbitrarily diluted dissociating diatomic gases, with parametric study results presented for the scaled shock standoff distance as a function of an appropriate blunt-nose region Damkohler number. Comparisons with other theories and data in the case of nitrogen are also given and discussed
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
The nature of the nonequilibrium flow of dissociating gases over spheres was investigated experiment...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
A new theory of hypersonic blunt body shock standoff is presented for ionizing nonequilibrium gas fl...
Although numerical codes are available to predict δ, they are expensive for engineering parametric s...
AbstractThis study proposes a quasi-one-dimensional model to predict the chemical non-equilibrium fl...
This paper deals with the real gas effects of the hypersonic flow over a cylinder with a blunt nose....
Normal shock problems in high enthalpy flows are of special interests to aerodynamicists and fluid d...
The exponential term in the expression for the forward reaction rate in a nonequilibrium dissociatin...
The chemically reacting inviscid flow of pure nitrogen over a blunt cone (half angle 13.5 degrees) a...
An inverse method was used for analyzing the chemically nonequilibrium flow about a blunt body. This...
A numerical method for the solution of nonequilibrium flows about blunt bodies is presented. The met...
A finite volume-based unstructured inviscid flow solver has been developed for the study of nonequil...
Theoretical results based on the methods of Freeman and Garr & Marrone show that the stand-off dista...
An analysis of nonequilibrium-dissociated stagnation point flow on highly cooled blunt bodies in a h...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
The nature of the nonequilibrium flow of dissociating gases over spheres was investigated experiment...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
A new theory of hypersonic blunt body shock standoff is presented for ionizing nonequilibrium gas fl...
Although numerical codes are available to predict δ, they are expensive for engineering parametric s...
AbstractThis study proposes a quasi-one-dimensional model to predict the chemical non-equilibrium fl...
This paper deals with the real gas effects of the hypersonic flow over a cylinder with a blunt nose....
Normal shock problems in high enthalpy flows are of special interests to aerodynamicists and fluid d...
The exponential term in the expression for the forward reaction rate in a nonequilibrium dissociatin...
The chemically reacting inviscid flow of pure nitrogen over a blunt cone (half angle 13.5 degrees) a...
An inverse method was used for analyzing the chemically nonequilibrium flow about a blunt body. This...
A numerical method for the solution of nonequilibrium flows about blunt bodies is presented. The met...
A finite volume-based unstructured inviscid flow solver has been developed for the study of nonequil...
Theoretical results based on the methods of Freeman and Garr & Marrone show that the stand-off dista...
An analysis of nonequilibrium-dissociated stagnation point flow on highly cooled blunt bodies in a h...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...
The nature of the nonequilibrium flow of dissociating gases over spheres was investigated experiment...
The effect of nonequilibrium recombination after a curved two-dimensional shock wave in a hyperveloc...