Surface waves propagation in shallow water: A finite element model

The present paper makes use of a wave equation formulation of the primitive shallow water equations to simulate one-dimensional free surface flow. A numerical formulation of the boundary element method is then developed to solve the wave continuity equation using a time-dependent fundamental solutio

Atwo-dunens \* ional (horizontal plane) coastal and estuarine region model, capable of predicting the combined effects of gravity surface shallow-water waves (shoaling, refraction, diffraction. reflection and brmling). and steady currents, is described and numerical results are compared with those o

A new algorithm for the solution of the shallow water equations is introduced. The formulation is founded on a suitable operator-splitting procedure for which a characteristic-based rational form of including balancing dissipation terms is achieved. In the semi-explicit form the method circumvents

The finite element approach has previously been used, with the help of the ATILA code, to model the propagation of acoustic waves in waveguides [A.-C. Hladky-Hennion, Journal of Sound and Vibration 194, 119-136 (1996)]. In this paper an extension of the technique to the analysis of the propagation o