It is well known that the representation of certain atmospheric conditions in climate and weather models can still suffer from the limited grid resolution that is facilitated by modern-day computer systems. Herein we study a simple one-dimensional analogy to those models by using a single-column model description of the atmosphere. The model employs an adaptive Cartesian mesh that applies a high-resolution mesh only when and where it is required. The so-called adaptive-grid model is described, and we report our findings obtained for tests to evaluate the representation of the atmospheric boundary layer, based on the first two GEWEX ABL Study (GABLS) inter-comparison cases. The analysis shows that the adaptive-grid algorithm is indeed able t...
A three-dimensional semi-implicit edge-based unstructured-mesh model is developed that integrates no...
Gives an overview and guidance in the development of adaptive techniques for atmospheric modeling. T...
This thesis demonstrates the versatility of high-order finite-volume methods for atmospheric general...
It is well known that the representation of certain atmospheric conditions in climate and weather mo...
An adaptive grid dynamical core for a global atmospheric climate model has been developed. Adaptatio...
We present a proof-of-concept for the adaptive mesh refinement method applied to atmospheric boundar...
One of the most important advances needed in global climate models is the development of atmospheric...
In an effort to study the applicability of adaptive mesh refinement (AMR) techniques to atmospheric ...
Adaptive Mesh Refinement (AMR) techniques offer a flexible framework for future variable-resolution ...
Adaptive Mesh Refinement (AMR) provides an attractive framework for atmospheric flows since it allow...
Correct representation of physical processes, the parametrizations, and their interaction with the r...
The paper advances the limited-area anelastic model (Smolarkiewicz et al. (2013) [45]) for investiga...
The model error in climate models depends on mesh resolution among other factors. While global refin...
Adaptive meshes have the potential to improve the accuracy and efficiency of atmospheric modelling b...
In this paper, Fluidity-Atmosphere, representative of a three-dimensional (3D) non-hydrostatic Galer...
A three-dimensional semi-implicit edge-based unstructured-mesh model is developed that integrates no...
Gives an overview and guidance in the development of adaptive techniques for atmospheric modeling. T...
This thesis demonstrates the versatility of high-order finite-volume methods for atmospheric general...
It is well known that the representation of certain atmospheric conditions in climate and weather mo...
An adaptive grid dynamical core for a global atmospheric climate model has been developed. Adaptatio...
We present a proof-of-concept for the adaptive mesh refinement method applied to atmospheric boundar...
One of the most important advances needed in global climate models is the development of atmospheric...
In an effort to study the applicability of adaptive mesh refinement (AMR) techniques to atmospheric ...
Adaptive Mesh Refinement (AMR) techniques offer a flexible framework for future variable-resolution ...
Adaptive Mesh Refinement (AMR) provides an attractive framework for atmospheric flows since it allow...
Correct representation of physical processes, the parametrizations, and their interaction with the r...
The paper advances the limited-area anelastic model (Smolarkiewicz et al. (2013) [45]) for investiga...
The model error in climate models depends on mesh resolution among other factors. While global refin...
Adaptive meshes have the potential to improve the accuracy and efficiency of atmospheric modelling b...
In this paper, Fluidity-Atmosphere, representative of a three-dimensional (3D) non-hydrostatic Galer...
A three-dimensional semi-implicit edge-based unstructured-mesh model is developed that integrates no...
Gives an overview and guidance in the development of adaptive techniques for atmospheric modeling. T...
This thesis demonstrates the versatility of high-order finite-volume methods for atmospheric general...