A Multiscale Nonhydrostatic Atmospheric Model Using Centroidal Voronoi Tesselations and C-Grid Staggering
NSF National Center for Atmospheric Research · Los Alamos National Laboratory
Abstract
Abstract The formulation of a fully compressible nonhydrostatic atmospheric model called the Model for Prediction Across Scales–Atmosphere (MPAS-A) is described. The solver is discretized using centroidal Voronoi meshes and a C-grid staggering of the prognostic variables, and it incorporates a split-explicit time-integration technique used in many existing nonhydrostatic meso- and cloud-scale models. MPAS can be applied to the globe, over limited areas of the globe, and on Cartesian planes. The Voronoi meshes are unstructured grids that permit variable horizontal resolution. These meshes allow for applications beyond uniform-resolution NWP and climate prediction, in particular allowing embedded high-resolution…
Citation impact
- FWCI
- 23.49
- Percentile
- 100%
- References
- 33
Authors
6- WCWilliam C. SkamarockCorresponding
NSF National Center for Atmospheric Research
- JBJoseph B. Klemp
NSF National Center for Atmospheric Research
- MDMichael Duda
NSF National Center for Atmospheric Research
- LDLaura D. Fowler
NSF National Center for Atmospheric Research
- SPSang-Hun Park
NSF National Center for Atmospheric Research
Topics & keywords
- Polygon mesh
- Solver
- Grid
- Voronoi diagram
- Discretization
- Cartesian coordinate system
- Atmospheric model
- Mesoscale meteorology
- Climate action