A cloud-resolving model (CRM) allows performing numerical simulations of convective clouds, such as shallow cumulus and stratocumulus, or storms and squall-lines with a resolution on the order of a few tens of metres to a few kilometres over a limited-area 4D (time and space) domain. The development of such models over the past decades is reviewed and their specific features are presented. The latter include a non-hydrostatic dynamic and parameterizations of sub-grid turbulence, microphysical and radiative processes. The capabilities of such models are discussed based on comparisons with observations and model-intercomparison studies. CRMs are used in a variety of ways, from the exploration of cloud phenomenology and process-understanding s...
Two-dimensional (2D) and three-dimensional (3D) cloud resolving models (CRM) are some of the best to...
In recent years Cloud Resolving Models (CRMs) have become an increasingly important tool for the stu...
Abstract We have developed a global cloud resolving model, that is a new high resolution atmospheric...
Since their advent into the meteorological modeling world, cloud-(system)-resolving models (CRMs or ...
Cloud-system resolving models (CRM), which are based on the nonhydrostatic equations of motion and t...
Convective processes affect large-scale environments through cloud-radiation interaction, cloud micr...
The central theme of this paper is to describe how cloud system resolving models (CRMs) of grid spac...
Recent advances in supercomputing have made feasible the numerical integration of high-resolution cl...
A formal approach is presented to couple small-scale processes associated with atmospheric moist con...
The growing usage of cloud resolving model (CRM or cloud ensemble model-CEM) in recent years can be ...
In recent years, exponentially increasing computer power has extended Cloud Resolving Model (CRM) in...
The role of convective processes in moistening the atmosphere during suppressed periods of the suppr...
Numerical cloud models, which are based the non-hydrostatic equations of motion, have been extensive...
International audienceThe role of convective processes in moistening the atmosphere during suppresse...
Abstract. A cloud resolving model (CRM) is used to inves-tigate the formation of orographic cirrus c...
Two-dimensional (2D) and three-dimensional (3D) cloud resolving models (CRM) are some of the best to...
In recent years Cloud Resolving Models (CRMs) have become an increasingly important tool for the stu...
Abstract We have developed a global cloud resolving model, that is a new high resolution atmospheric...
Since their advent into the meteorological modeling world, cloud-(system)-resolving models (CRMs or ...
Cloud-system resolving models (CRM), which are based on the nonhydrostatic equations of motion and t...
Convective processes affect large-scale environments through cloud-radiation interaction, cloud micr...
The central theme of this paper is to describe how cloud system resolving models (CRMs) of grid spac...
Recent advances in supercomputing have made feasible the numerical integration of high-resolution cl...
A formal approach is presented to couple small-scale processes associated with atmospheric moist con...
The growing usage of cloud resolving model (CRM or cloud ensemble model-CEM) in recent years can be ...
In recent years, exponentially increasing computer power has extended Cloud Resolving Model (CRM) in...
The role of convective processes in moistening the atmosphere during suppressed periods of the suppr...
Numerical cloud models, which are based the non-hydrostatic equations of motion, have been extensive...
International audienceThe role of convective processes in moistening the atmosphere during suppresse...
Abstract. A cloud resolving model (CRM) is used to inves-tigate the formation of orographic cirrus c...
Two-dimensional (2D) and three-dimensional (3D) cloud resolving models (CRM) are some of the best to...
In recent years Cloud Resolving Models (CRMs) have become an increasingly important tool for the stu...
Abstract We have developed a global cloud resolving model, that is a new high resolution atmospheric...