Finite-element analysis of Taylor flow

## Abstract The aim of the present work is to introduce a formulation for the numerical analysis of three‐dimensional thermochemical non‐equilibrium hypersonic flows, using the finite element method and the Taylor–Galerkin scheme and adopting Park's 2‐temperature, 5‐species (N2, O2, NO, N and O) an

The finite element representation of the linearized equations governing the steady compressible flow of an isentropic perfect gas is considered. The fully non-linear system of equations is linearized on the basis of small perturbation theory. The finite element matrix equations for an arbitrary poly

A fully Lagrangian ÿnite element method for the analysis of Newtonian ows is developed. The approach furnishes, in e ect, a Lagrangian implementation of the compressible Navier-Stokes equations. As the ow proceeds, the mesh is maintained undistorted through continuous and adaptive remeshing of the u

lkrodimmsional finite element analyses of two types of m i ) a conduit gate with pressure flow upstream of the gate and free surface flow downstream of the gate and (ii) a sluice gate with free surfacm both upstream and downstream of the gak-arc done using ideal h i d theory. The conduit gate proble