Solutions of the shallow water equations on a sphere

any potential climate model should perform well on these tests. In this paper we will present the results from these The spectral element method is implemented for the shallow water equations in spherical geometry and its performance is com-test cases after first comparing and contrasting the spect

Spatial discretization schemes commonly used in global meteorological applications are currently limited to spectral methods or low-order finite-difference/finiteelement methods. The spectral transform method, which yields high-order approximations, requires Legendre transforms, which have a computa

We describe the implementation of numerical models of shallow water flow on the surface of the sphere, models which include the nondivergent barotropic limit as a special case. All of these models are specified in terms of a new grid-point-based methodology which employs an heirarchy of tesselations

v 2 + (v ) 2 ] being conserved up to time T . The spectral picture is seen