Verification of Euler/Navier–Stokes codes using the method of manufactured solutions

A computationally efficient multigrid algorithm for upwind edge-based finite element schemes is developed for the solution of the two-dimensional Euler and Navier -Stokes equations on unstructured triangular grids. The basic smoother is based upon a Galerkin approximation employing an edge-based for

Finite element solutions of the Euler and Navier-Stokes equations are presented, using a simple dissipation model. The discretization is based on the weak-Galerkin weighted residual method and equal interpolation functions for all the unknowns are permitted. The nonlinearity is iterated upon using a

A new method of estimating the extent of the artificial dissipation effects in any solution obtained with a Navier-Stokes flow solver is described Rather than recalculating the flow on a more refined grid, the solver may be used on the same grid to calculate the flow of an 'artificially dissipative

## Abstract The notion of a measure‐valued solution for the Euler and the Navier‐Stokes equations is introduced and its global in time existence is proved.

Some methods are proposed for solving the Navier-Stokes equations for two-dimensional, incompressible, flow using the velocityvorticity formulation. The main feature of the work is the solution of the equation of continuity using boundary-value techniques. This is possible because both of the veloci