A review of element-based Galerkin methods for numerical weather prediction: Finite elements, spectral elements, and discontinuous Galerkin
Numerical weather prediction (NWP) is in a period of transition. As resolutions increase,
global models are moving towards fully nonhydrostatic dynamical cores, with the local and …
global models are moving towards fully nonhydrostatic dynamical cores, with the local and …
[HTML][HTML] Physics–dynamics coupling in weather, climate, and Earth system models: Challenges and recent progress
Physics–Dynamics Coupling in Weather, Climate, and Earth System Models: Challenges and
Recent Progress in: Monthly Weather Review Volume 146 Issue 11 (2018) Jump to Content …
Recent Progress in: Monthly Weather Review Volume 146 Issue 11 (2018) Jump to Content …
Analysis of adaptive mesh refinement for IMEX discontinuous Galerkin solutions of the compressible Euler equations with application to atmospheric simulations
MA Kopera, FX Giraldo - Journal of Computational Physics, 2014 - Elsevier
The resolutions of interests in atmospheric simulations require prohibitively large
computational resources. Adaptive mesh refinement (AMR) tries to mitigate this problem by …
computational resources. Adaptive mesh refinement (AMR) tries to mitigate this problem by …
The dune-alugrid module
M Alkämper, A Dedner, R Klöfkorn, M Nolte - arXiv preprint arXiv …, 2014 - arxiv.org
In this paper we present the new DUNE-ALUGrid module. This module contains a major
overhaul of the sources from the ALUgrid library and the binding to the DUNE software …
overhaul of the sources from the ALUgrid library and the binding to the DUNE software …
[HTML][HTML] Physics–dynamics coupling with element-based high-order Galerkin Methods: Quasi-equal-area physics grid
Physics–Dynamics Coupling with Element-Based High-Order Galerkin Methods: Quasi-Equal-Area
Physics Grid in: Monthly Weather Review Volume 147 Issue 1 (2019) Jump to Content …
Physics Grid in: Monthly Weather Review Volume 147 Issue 1 (2019) Jump to Content …
Compatible finite element spaces for geophysical fluid dynamics
Compatible finite elements provide a framework for preserving important structures in
equations of geophysical fluid dynamics and are becoming important in their use for building …
equations of geophysical fluid dynamics and are becoming important in their use for building …
A comparative computational study of different formulations of the compressible Euler equations for mesoscale atmospheric flows in a finite volume framework
We consider three conservative forms of the weakly compressible Euler equations, called
CE1, CE2 and CE3, with the goal of understanding which leads to the most accurate and …
CE1, CE2 and CE3, with the goal of understanding which leads to the most accurate and …
[HTML][HTML] Representation of precipitation characteristics and extremes in regional reanalyses and satellite-and gauge-based estimates over western and central Europe
This paper evaluates several daily precipitation products over western and central Europe,
identifies and documents their respective strengths and shortcomings, and relates these to …
identifies and documents their respective strengths and shortcomings, and relates these to …
Exploring a lower‐resolution physics grid in CAM‐SE‐CSLAM
This paper describes the implementation of a coarser‐resolution physics grid into the
Community Atmosphere Model (CAM), containing fewer grid columns than the dynamics …
Community Atmosphere Model (CAM), containing fewer grid columns than the dynamics …
A variational multiscale stabilized finite element method for the solution of the Euler equations of nonhydrostatic stratified flows
We present a compressible version of the variational multiscale stabilization (VMS) method
applied to the finite element (FE) solution of the Euler equations for nonhydrostatic stratified …
applied to the finite element (FE) solution of the Euler equations for nonhydrostatic stratified …