AbstractThree numerical schemes, all based on numerical characteristic decomposition, are compared in terms of their computational efficiency when applied to the one-dimensional Euler equations. The schemes differ through the use of alternative averaging procedures
One of the most popular and simple methods to derive a non-linear equation to steady state is diagon...
AbstractThis paper examines the properties of the homentropic Euler equations when the characteristi...
A comparative study of the performance of commonly used, TVD or non-7VD second order accurate numeri...
AbstractThree numerical schemes, all based on numerical characteristic decomposition, are compared i...
AbstractAn analysis of various arithmetic averaging procedures is undertaken for an approximate Riem...
AbstractAn analysis of various averaging procedures is carried out for an approximate Riemann solver...
AbstractA finite difference scheme based on flux difference splitting is presented for the solution ...
AbstractAn analysis of various averaging procedures is undertaken for an approximate Riemann solver ...
AbstractThree numerical schemes, all based on numerical characteristic decomposition, are compared i...
Methods of incorporating multi-dimensional ideas into algorithms for the solution of Euler equations...
AbstractNumerical results are presented and compared for three conservative upwind difference scheme...
A finite difference scheme based on flux difference splitting is presented for the solution of the E...
AbstractAn efficient numerical method is presented for the solution of the Euler equations governing...
An efficient numerical method is presented for the solution of the Euler equations governing the com...
AbstractA finite difference scheme based on flux difference splitting is presented for the solution ...
One of the most popular and simple methods to derive a non-linear equation to steady state is diagon...
AbstractThis paper examines the properties of the homentropic Euler equations when the characteristi...
A comparative study of the performance of commonly used, TVD or non-7VD second order accurate numeri...
AbstractThree numerical schemes, all based on numerical characteristic decomposition, are compared i...
AbstractAn analysis of various arithmetic averaging procedures is undertaken for an approximate Riem...
AbstractAn analysis of various averaging procedures is carried out for an approximate Riemann solver...
AbstractA finite difference scheme based on flux difference splitting is presented for the solution ...
AbstractAn analysis of various averaging procedures is undertaken for an approximate Riemann solver ...
AbstractThree numerical schemes, all based on numerical characteristic decomposition, are compared i...
Methods of incorporating multi-dimensional ideas into algorithms for the solution of Euler equations...
AbstractNumerical results are presented and compared for three conservative upwind difference scheme...
A finite difference scheme based on flux difference splitting is presented for the solution of the E...
AbstractAn efficient numerical method is presented for the solution of the Euler equations governing...
An efficient numerical method is presented for the solution of the Euler equations governing the com...
AbstractA finite difference scheme based on flux difference splitting is presented for the solution ...
One of the most popular and simple methods to derive a non-linear equation to steady state is diagon...
AbstractThis paper examines the properties of the homentropic Euler equations when the characteristi...
A comparative study of the performance of commonly used, TVD or non-7VD second order accurate numeri...
DOI
Add to ORKG