An arbitrary finite-volume approach is developed for discretising partial differential equations governing fluid flows on the sphere. Unconventionally for unstructured-mesh global models, the governing equations are cast in the anholonomic geospherical framework established in computational meteorology. The resulting discretisation retains proven properties of the geospherical formulation, while it offers the flexibility of unstructured meshes in enabling irregular spatial resolution. The latter allows for a global enhancement of the spatial resolution away from the polar regions as well as for a local mesh refinement. A class of non-oscillatory forward-in-time edge-based solvers is developed and applied to numerical examples of three-dimen...
The advance of massively parallel computing in the nineteen nineties and beyond encouraged finer gri...
This thesis demonstrates a new non-staggered-grid finite-volume method for dynamical cores in atmosp...
Simulations of the global atmosphere for weather and climate forecasting require fast and accurate s...
This paper describes an unstructured/hybrid mesh framework providing a robust environment for multis...
A three-dimensional semi-implicit edge-based unstructured-mesh model is developed that integrates no...
The paper advances the limited-area anelastic model (Smolarkiewicz et al. (2013) [45]) for investiga...
An algorithm for the generation of non-uniform, locally orthogonal staggered unstructured spheroidal...
Alternative meshes of the sphere and adaptive mesh refinement could be immensely beneficial for weat...
An algorithm for the generation of non-uniform, locally orthogonal staggered unstructured spheroidal...
The shallow water equations in spherical geometry provide a first prototype for developing and testi...
A novel approach to the construction of three-dimensional grids in spherical geometries is described...
This thesis demonstrates the versatility of high-order finite-volume methods for atmospheric general...
Adaptive Mesh Refinement (AMR) techniques offer a flexible framework for future variable-resolution ...
The paper documents the development of a global nonhydrostatic finite-volume module designed to enha...
Traditionally, numerical models for simulating planetary scale weather and climate employ the hydros...
The advance of massively parallel computing in the nineteen nineties and beyond encouraged finer gri...
This thesis demonstrates a new non-staggered-grid finite-volume method for dynamical cores in atmosp...
Simulations of the global atmosphere for weather and climate forecasting require fast and accurate s...
This paper describes an unstructured/hybrid mesh framework providing a robust environment for multis...
A three-dimensional semi-implicit edge-based unstructured-mesh model is developed that integrates no...
The paper advances the limited-area anelastic model (Smolarkiewicz et al. (2013) [45]) for investiga...
An algorithm for the generation of non-uniform, locally orthogonal staggered unstructured spheroidal...
Alternative meshes of the sphere and adaptive mesh refinement could be immensely beneficial for weat...
An algorithm for the generation of non-uniform, locally orthogonal staggered unstructured spheroidal...
The shallow water equations in spherical geometry provide a first prototype for developing and testi...
A novel approach to the construction of three-dimensional grids in spherical geometries is described...
This thesis demonstrates the versatility of high-order finite-volume methods for atmospheric general...
Adaptive Mesh Refinement (AMR) techniques offer a flexible framework for future variable-resolution ...
The paper documents the development of a global nonhydrostatic finite-volume module designed to enha...
Traditionally, numerical models for simulating planetary scale weather and climate employ the hydros...
The advance of massively parallel computing in the nineteen nineties and beyond encouraged finer gri...
This thesis demonstrates a new non-staggered-grid finite-volume method for dynamical cores in atmosp...
Simulations of the global atmosphere for weather and climate forecasting require fast and accurate s...