We propose an approach to stochastic parameterisation of shallow cumulus clouds to represent the convective variability and its dependence on the model resolution. To collect information about the individual cloud lifecycles and the cloud ensemble as a whole, we employ a large eddy simulation (LES) model and a cloud tracking algorithm, followed by conditional sampling of clouds at the cloud-base level. In the case of a shallow cumulus ensemble, the cloud-base mass flux distribution is bimodal, due to the different shallow cloud subtypes, active and passive clouds. Each distribution mode can be approximated using a Weibull distribution, which is a generalisation of exponential distribution by accounting for the change in distribution shape d...
A technique for the tracking of individual clouds in a Large Eddy Simulation (LES) is presented. We ...
Cumulus clouds involve processes on a vast range of scales-including cloud droplets, turbulent mixin...
This paper is the first in a two-part series in which the life cycles of numerically simulated shall...
We propose an approach to stochastic parameterisation of shallow cumulus clouds to represent the con...
We propose an approach to stochastic parameterisation of shallow cumulus clouds to represent the con...
The parameterization of shallow cumuli across a range of model grid resolutions of kilometrescales f...
To provide a theoretical basis for stochastic parameterization of cumulus convection, the equilibriu...
To provide a theoretical basis for stochastic parameterization of cumulus convection, the equilibriu...
htmlabstractIn this paper, we report on the development of a methodology for stochastic parameteriza...
A machine-learning-assisted stochastic cloud population model is coupled with the Advanced Research ...
This dissertation combines a diagnostic study, a numerical simulation and a theory of cumulus mixing...
Cumulus parameterization (CP) in state‐of‐the‐art global climate models is based on the quasi‐equili...
A stochastic parameterization scheme for deep convection is described, suitable for use in both clim...
A stochastic parameterization scheme for deep convection is described, suitable for use in both clim...
Clouds are chaotic, difficult to predict, but above all, magnificent natural phenomena. There are di...
A technique for the tracking of individual clouds in a Large Eddy Simulation (LES) is presented. We ...
Cumulus clouds involve processes on a vast range of scales-including cloud droplets, turbulent mixin...
This paper is the first in a two-part series in which the life cycles of numerically simulated shall...
We propose an approach to stochastic parameterisation of shallow cumulus clouds to represent the con...
We propose an approach to stochastic parameterisation of shallow cumulus clouds to represent the con...
The parameterization of shallow cumuli across a range of model grid resolutions of kilometrescales f...
To provide a theoretical basis for stochastic parameterization of cumulus convection, the equilibriu...
To provide a theoretical basis for stochastic parameterization of cumulus convection, the equilibriu...
htmlabstractIn this paper, we report on the development of a methodology for stochastic parameteriza...
A machine-learning-assisted stochastic cloud population model is coupled with the Advanced Research ...
This dissertation combines a diagnostic study, a numerical simulation and a theory of cumulus mixing...
Cumulus parameterization (CP) in state‐of‐the‐art global climate models is based on the quasi‐equili...
A stochastic parameterization scheme for deep convection is described, suitable for use in both clim...
A stochastic parameterization scheme for deep convection is described, suitable for use in both clim...
Clouds are chaotic, difficult to predict, but above all, magnificent natural phenomena. There are di...
A technique for the tracking of individual clouds in a Large Eddy Simulation (LES) is presented. We ...
Cumulus clouds involve processes on a vast range of scales-including cloud droplets, turbulent mixin...
This paper is the first in a two-part series in which the life cycles of numerically simulated shall...