Evaluating wetting and drying algorithms for finite element models of shallow water flow

Finite element solution of the shallow water wave equations has found increasing use by researchers and practitioners in the modelling of oceans and coastal areas. Wave equation models, most of which use equal-order C? interpolants for both the velocity and the surface elevation, do not introduce sp

## 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

Computation of vertical velocity within the con®nes of a three-dimensional, ®nite element model is a dif®cult but important task. This paper examines four approaches to the solution of the overdetermined system of equations arising when the ®rst-order continuity equation is solved in conjunction wit

## Abstract This paper formulates a finite volume analogue of a finite element schematization of three‐dimensional shallow water equations. The resulting finite volume schematization, when applied to the continuity equation, exactly reproduces the set of matrix equations that is obtained by the app