We present a new Lagrangian cell-centered scheme for two-dimensional compressible flows. The primary variables in this new scheme are cell-centered, i.e., density, momentum and total energy are defined by their mean values in the cells. The vertex velocities and the numerical fluxes through the cell interfaces are not computed independently contrary to standard approaches but are evaluated in a consistent manner due to an original solver located at the nodes. The main new features of the algorithm is the introduction of four pressures on each edge, two for each node on each side of the edge. This extra degree of freedom, allows us to construct a nodal solver which fulfills two properties. First, the conservation of momentum and total energy...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulati...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulat...
AbstractWe present an essentially Lagrangian hydrodynamic scheme suitable for modeling complex compr...
We present a new Lagrangian cell-centered scheme for two-dimensional compressible flows. The primary...
We present a new Lagrangian cell-centered scheme for two-dimensional compressible flows. The primary...
We present a high-order cell-centered Lagrangian scheme for solving the two-dimensional gas dynamics...
The goal of this paper is to present high-order cell-centered schemes for solving the equations of L...
AbstractThe paper presents a new cell-centered Lagrangian method for two-dimensional compressible fl...
This paper presents a new cell-centered Lagrangian scheme for two-dimensional compressible flow. The...
AbstractWe develop a comprehensive approach of cell centered schemes for Lagrangian calculations of ...
This work presents a multidimensional cell-centered unstructured finite volume scheme for the soluti...
AbstractWe present a general sub-cell force-based formalism to derive cell-centered schemes for two-...
In this paper, we consider an Arbitrary Lagrangian Eulerian (ALE) alternative to the computation of ...
The formulation normally used to calculate compressible Lagrangian hydrodynamics in two dimensions i...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulati...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulat...
AbstractWe present an essentially Lagrangian hydrodynamic scheme suitable for modeling complex compr...
We present a new Lagrangian cell-centered scheme for two-dimensional compressible flows. The primary...
We present a new Lagrangian cell-centered scheme for two-dimensional compressible flows. The primary...
We present a high-order cell-centered Lagrangian scheme for solving the two-dimensional gas dynamics...
The goal of this paper is to present high-order cell-centered schemes for solving the equations of L...
AbstractThe paper presents a new cell-centered Lagrangian method for two-dimensional compressible fl...
This paper presents a new cell-centered Lagrangian scheme for two-dimensional compressible flow. The...
AbstractWe develop a comprehensive approach of cell centered schemes for Lagrangian calculations of ...
This work presents a multidimensional cell-centered unstructured finite volume scheme for the soluti...
AbstractWe present a general sub-cell force-based formalism to derive cell-centered schemes for two-...
In this paper, we consider an Arbitrary Lagrangian Eulerian (ALE) alternative to the computation of ...
The formulation normally used to calculate compressible Lagrangian hydrodynamics in two dimensions i...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulati...
We present an original and accurate unstructured cell-centered ALE algorithm devoted to the simulat...
AbstractWe present an essentially Lagrangian hydrodynamic scheme suitable for modeling complex compr...