A “Vertically Lagrangian” Finite-Volume Dynamical Core for Global Models
Princeton University · NOAA Geophysical Fluid Dynamics Laboratory
Abstract
A finite-volume dynamical core with a terrain-following Lagrangian control-volume discretization is described. The vertically Lagrangian discretization reduces the dimensionality of the physical problem from three to two with the resulting dynamical system closely resembling that of the shallow water system. The 2D horizontalto-Lagrangian-surface transport and dynamical processes are then discretized using the genuinely conservative flux-form semi-Lagrangian algorithm. Time marching is split-explicit, with large time steps for scalar transport, and small fractional steps for the Lagrangian dynamics, which permits the accurate propagation of fast waves. A mass, momentum, and total energy conserving algorithm is…
Citation impact
- FWCI
- 46.43
- Percentile
- 100%
- References
- 35
Authors
1Topics & keywords
- Discretization
- Lagrangian system
- Finite volume method
- Lagrangian mechanics
- Inverse problem for Lagrangian mechanics
- Scalar (mathematics)
- Mathematics
- Classical mechanics