Jun 7, 2020 · Our results demonstrate that discretisations within the compatible finite-element framework can be robust enough also to describe moist atmospheric processes.

Oct 4, 2019 · We present new discretisation of the moist compressible Euler equations, using the compatible finite element framework identified in Cotter and Shipton (2012).

Jun 7, 2020 · We describe our discretisation strategy, including treatment of moist processes, and present two configurations of the model using different ...

Abstract. A promising development of the last decade in the numerical modelling of geophysical fluids has been the compatible finite-element framework.

We describe our discretisation strategy, including treatment of moist processes, and present two configurations of the model using different sets of function ...

We present new discretisation of the moist compressible Euler equations, using the compatible finite element framework identified in Cotter and Shipton (2012).

We present new discretisation of the moist compressible Euler equations, using the compatible finite element framework identified in Cotter and Shipton ...

A Compatible Finite Element Discretisation for the Moist Compressible Euler Equations. Bendall, T. M., Gibson, T. H., Shipton, J., Cotter, C. J., & Shipway, ...

Sep 3, 2023 · This article presents numerical results for a compatible finite element discretisation of the compressible Euler equations in a vertical slice geometry.

We present new discretisation of the moist compressible Euler equations, using the compatible finite element framework identified in Cotter and Shipton ...