Add to ORKGWe present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it does not fit to the body. The scheme, based on the definition of an ad hoc Riemann problem at solid boundaries, is simple to implement and it is formally second order accurate. Error convergence rates with respect to several exact test cases are investigated and examples of flow solutions in one, two and three dimensions are presented
International audienceA simple second order scheme for compressible inviscid flows on cartesian mesh...
International audienceWe present a simple globally second order scheme inspired by ghost cell approa...
We present a numerical algorithm to solve the nonstationary three-dimensional compressible Euler equ...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a second-order finite-volume scheme for compressible Euler flows in complex geometries, w...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
International audienceWe present a second-order finite-volume scheme for compressible Euler flows in...
We present a simple globally second order scheme inspired by ghost cell approaches to solve compress...
A simple second order scheme for compressible inviscid flows on cartesian meshes is presented. An ap...
A simple second order scheme for compressible inviscid flows on cartesian meshes is presented. An ap...
International audienceA simple second order scheme for compressible inviscid flows on cartesian mesh...
International audienceWe present a simple globally second order scheme inspired by ghost cell approa...
We present a numerical algorithm to solve the nonstationary three-dimensional compressible Euler equ...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a second-order finite-volume scheme for compressible Euler flows in complex geometries, w...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
We present a finite-volume scheme for compressible Euler flows where the grid is cartesian and it do...
International audienceWe present a second-order finite-volume scheme for compressible Euler flows in...
We present a simple globally second order scheme inspired by ghost cell approaches to solve compress...
A simple second order scheme for compressible inviscid flows on cartesian meshes is presented. An ap...
A simple second order scheme for compressible inviscid flows on cartesian meshes is presented. An ap...
International audienceA simple second order scheme for compressible inviscid flows on cartesian mesh...
International audienceWe present a simple globally second order scheme inspired by ghost cell approa...
We present a numerical algorithm to solve the nonstationary three-dimensional compressible Euler equ...