Lumped versus distributed mass matrices in the finite element solution of subsurface flow

## Abstract Parallel proximal‐point algorithms for mixed finite element models of flow in the subsurface are presented. The applied methodology corresponds to operator splitting and non‐overlapping domain decomposition methods, combined with resolvent or proximation characterizations and proximal‐p

A simple, yet effective, finite element approach to aerodynamic problems is presented. A better approximation of the geometry is obtained by the mapping of airfoils into near-circles. The mapping serves in homogenizing the gradients of the problem by magnifying regions of high gradients such as the

A finite element model of the steady state temperature distribution in the human torso is developed. The torso is approximated by a circular cylinder of core surrounded by a layer of muscle and insulating layers of fat and skin. The model is simplified by neglecting longitudinal heat flow. The regio

Electrical double-layer effects are unimportant in flows through porous media except when the Debye length ) ~-l is comparable in magnitude with the pore radius a. Under these conditions the equations governing the flow of electrolyte are those of Stokes, Nemst-Planck and Poisson. These equations ar