Modelling floodplain flows using a two-dimensional finite element model

In this paper, a Galerkin weighted residual finite element numerical solution method, with velocity material time derivative discretisation, is applied to solve for a classical fluid mechanics system of partial differential equations modelling two-dimensional stationary incompressible Newtonian flui

A new computational model of the edge plasma in axisymmetric magnetic fusion devices has been developed based on finite element methods. Braginskii-type plasma fluid equations and a oneenergy-group neutral particle diffusion equation are spatially discretized on a two-dimensional domain using Galerk

Two-dimensional, ®nite element hydraulic models have been developed to simulate river ¯ood ¯ows at high spatial and temporal resolutions over river reach lengths of 1±60 km. Such models have been shown to be capable of simulating bulk ¯ow; however, model redesign to predict spatially distributed hyd

This paper describes results from a recent study concerning the numerical modelling of compound channel flow using two generalized two-dimensional finite element codes specifically adapted to floodplain studies: RMA-2 and TELEMAC-2D. By application to an 11km reach of the River Culum, Devon, UK, sim

A fully three-dimensional elastic-plastic finite-element program for the study of metalforming operations is described. Several applications are discussed, and the finite-element (FE) predictions of metal flow, strain rate and temperature distributions, and the sites of initiation of ductile fractur