Add to ORKGAbstract. In this paper we present fundamental properties and new results for the regularized 13-moment-equations. These equations form a new continuum model for rarefied gas flow with Knudsen number K n < 1. Stability results and shock profile performance is reviewed and testing results for light scattering are presented. Questions of hyperbolicity and two-dimensional flow simulations are discussed
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
We summarize our recent contributions to the development of macroscopic transport equations for rare...
The accurate and computationally efficient prediction of rarefied gas flows remains a challenging re...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
Efficient modeling of rarefied flow has drawn widespread interest for practical engineering applicat...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
We summarize our recent contributions to the development of macroscopic transport equations for rare...
The accurate and computationally efficient prediction of rarefied gas flows remains a challenging re...
Hyperbolic moment equations for the simulation of rarefied gas flows are derived and solved using ap...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
Through a deep investigation on the structure of the coefficient matrix of the globally hyperbolic r...
The regularized 13 moment (R13) equations are a macroscopic model for the description of rarefied ga...
Efficient modeling of rarefied flow has drawn widespread interest for practical engineering applicat...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...
The regularized 13 moment equations (R13) are a macroscopic model for the description of rarefied ga...