Computer power has grown to the point that very-fine-mesh mesoscale modelling is now possible. Going down through scales is clumsily supposed to reduce uncertainty and to improve the predictive ability of the models. This work provides a contribution to understand how the uncertainty in the numerical weather prediction (NWP) of severe weather events is affected by increasing the model grid resolution and by choosing a parameterization which is able to represent turbulent processes at such finer scales. <br><br> A deep moist convective scenario, a supercell, in a simplified atmospheric setting is studied by mean of high resolution numerical simulations with COSMO-Model. Different turbulent closures are used and their impacts on t...
This study investigates the hydrometeor development and response to cloud droplet number concentrati...
Climate models are based on the numerical solutions of partial differential equations on a finite gr...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...
Abstract Many meteorological organizations plan to substantially increase the resolut...
In this study, we investigate uncertainties in a large eddy simulation of the atmosphere, employing ...
Stochastic schemes to represent model uncertainty in the European Centre for Medium-Range Weather Fo...
The development of NWP models with grid spacing down to 1 km should produce more realistic forecasts...
We perform simulations of several convective events over the southern UK with the Met Office Unified...
A well-represented description of convection in weather and climate models is essential since convec...
Mesoscale convective systems (MCS) are difficult to forecast due to their inherent unpredictability ...
In this work high-resolution numerical simulation (Large-Eddie Simulation, LES) has been used to stu...
The following topics are discussed: an overview of the cumulus parameterization problem; interaction...
This study investigates the hydrometeor development and response to cloud droplet number concentrati...
In this study, the effect of a scale-aware convective parameterization scheme (CPS) on the simulatio...
Current state-of-the-art regional numerical weather prediction (NWP) models employ kilometer-scale h...
This study investigates the hydrometeor development and response to cloud droplet number concentrati...
Climate models are based on the numerical solutions of partial differential equations on a finite gr...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...
Abstract Many meteorological organizations plan to substantially increase the resolut...
In this study, we investigate uncertainties in a large eddy simulation of the atmosphere, employing ...
Stochastic schemes to represent model uncertainty in the European Centre for Medium-Range Weather Fo...
The development of NWP models with grid spacing down to 1 km should produce more realistic forecasts...
We perform simulations of several convective events over the southern UK with the Met Office Unified...
A well-represented description of convection in weather and climate models is essential since convec...
Mesoscale convective systems (MCS) are difficult to forecast due to their inherent unpredictability ...
In this work high-resolution numerical simulation (Large-Eddie Simulation, LES) has been used to stu...
The following topics are discussed: an overview of the cumulus parameterization problem; interaction...
This study investigates the hydrometeor development and response to cloud droplet number concentrati...
In this study, the effect of a scale-aware convective parameterization scheme (CPS) on the simulatio...
Current state-of-the-art regional numerical weather prediction (NWP) models employ kilometer-scale h...
This study investigates the hydrometeor development and response to cloud droplet number concentrati...
Climate models are based on the numerical solutions of partial differential equations on a finite gr...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...