The effects of uncertainties in the gas-surface interaction and intermolecular interaction models on the hypersonic boundary layer development are investigated using the nonintrusive generalized polynomial chaos method. In particular, uncertainties in the surface shear stress, normal stress, heat flux, flowfield temperature and density resulting from uncertain viscosity exponent, surface temperature and accommodation coefficient are considered. The polynomial chaos expansion approach is used to reconstruct the probability density function, calculate mean, standard deviation and skewness of the dependent variables from the DSMC calculations. The uncertainty analysis shows that surface fluxes and flowfields in the hypersonic boundary layer ar...
The current understanding of the effects of thermochemical nonequilibrium on hypersonic boundary-lay...
This paper presents computational results obtained by applying the direct simulation Monte Carlo (DS...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76165/1/AIAA-2009-1316-436.pd
This study uses the non-intrusive generalized polynomial chaos method to investigate the effects of ...
The effects of uncertainties in the gas-surface interaction model, intermolecular interaction model ...
Uncertainty quantification (UQ) in the hypersonic flow regime offers valuable information to determi...
Uncertainty quantification (UQ) in the hypersonic flow regime offers valuable information to determi...
The primary focus of this study is to demonstrate an efficient approach for uncertainty quantificati...
Accurate numerical prediction of coupled hypersonic flow fields and ablative TPS material response i...
Abstract. A hypersonic flow about a cylindrically blunted thick plate at a zero angle of attack is n...
Adding head opposing jets is a common flow control approach to reduce the aerodynamic heating of hyp...
This paper is one of a series of five papers in a special session organized by the NASA Fundamental ...
This paper presents a detailed computational study quantifying the effects of nonequil-ibrium on the...
The primary focus of this paper is to demonstrate an efficient approach for uncertainty quantificati...
Shock wave-boundary layer interactions (SWBLIs) have a tremendous influence on the performance of hy...
The current understanding of the effects of thermochemical nonequilibrium on hypersonic boundary-lay...
This paper presents computational results obtained by applying the direct simulation Monte Carlo (DS...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76165/1/AIAA-2009-1316-436.pd
This study uses the non-intrusive generalized polynomial chaos method to investigate the effects of ...
The effects of uncertainties in the gas-surface interaction model, intermolecular interaction model ...
Uncertainty quantification (UQ) in the hypersonic flow regime offers valuable information to determi...
Uncertainty quantification (UQ) in the hypersonic flow regime offers valuable information to determi...
The primary focus of this study is to demonstrate an efficient approach for uncertainty quantificati...
Accurate numerical prediction of coupled hypersonic flow fields and ablative TPS material response i...
Abstract. A hypersonic flow about a cylindrically blunted thick plate at a zero angle of attack is n...
Adding head opposing jets is a common flow control approach to reduce the aerodynamic heating of hyp...
This paper is one of a series of five papers in a special session organized by the NASA Fundamental ...
This paper presents a detailed computational study quantifying the effects of nonequil-ibrium on the...
The primary focus of this paper is to demonstrate an efficient approach for uncertainty quantificati...
Shock wave-boundary layer interactions (SWBLIs) have a tremendous influence on the performance of hy...
The current understanding of the effects of thermochemical nonequilibrium on hypersonic boundary-lay...
This paper presents computational results obtained by applying the direct simulation Monte Carlo (DS...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76165/1/AIAA-2009-1316-436.pd