We perform simulations of several convective events over the southern UK with the Met Office Unified Model (UM) at horizontal grid lengths ranging from 1.5 km to 200 m. Comparing the simulated storms on these days with the Met Office rainfall radar network allows us to apply a statistical approach to evaluate the properties and evolution of the simulated storms over a range of conditions. Here we present results comparing the storm morphology in the model and reality which show that the simulated storms become smaller as grid length decreases and that the grid length that fits the observations best changes with the size of the observed cells. We investigate the sensitivity of storm morphology in the model to the mixing length used in the su...
Because of their limited spatial resolution, numerical weather prediction and climate models have to...
Variations in storm microstructure due to updraft strength, liquid water content, and the presence o...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...
We perform simulations of several convective events over the southern UK with the Met Office Unified...
A set of high-resolution radar observations of convective storms has been collected to evaluate such...
This study presents an evaluation of the size and strength of convective updraughts in high-resoluti...
Computer power has grown to the point that very-fine-mesh mesoscale modelling is now possible. Going...
International audienceA new mixing length adapted to the constraints of the hectometric-scale gray z...
A mixed subgrid scheme for scalars and momentum fluxes in cloud‐resolving models which includes an e...
International audienceRadiative-convective equilibrium simulations with a 2 km horizontal resolution...
A new mixing length scale is presented for turbulence closure schemes with special emphasis on neutr...
A new frontier in weather forecasting is emerging by operational forecast models now being run at co...
Abstract Many meteorological organizations plan to substantially increase the resolut...
A new mixing-length scale is presented for turbulence-closure schemes, with special emphasis on neut...
Severe storms are typically simulated assuming either an idealized, horizontally homogeneous environ...
Because of their limited spatial resolution, numerical weather prediction and climate models have to...
Variations in storm microstructure due to updraft strength, liquid water content, and the presence o...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...
We perform simulations of several convective events over the southern UK with the Met Office Unified...
A set of high-resolution radar observations of convective storms has been collected to evaluate such...
This study presents an evaluation of the size and strength of convective updraughts in high-resoluti...
Computer power has grown to the point that very-fine-mesh mesoscale modelling is now possible. Going...
International audienceA new mixing length adapted to the constraints of the hectometric-scale gray z...
A mixed subgrid scheme for scalars and momentum fluxes in cloud‐resolving models which includes an e...
International audienceRadiative-convective equilibrium simulations with a 2 km horizontal resolution...
A new mixing length scale is presented for turbulence closure schemes with special emphasis on neutr...
A new frontier in weather forecasting is emerging by operational forecast models now being run at co...
Abstract Many meteorological organizations plan to substantially increase the resolut...
A new mixing-length scale is presented for turbulence-closure schemes, with special emphasis on neut...
Severe storms are typically simulated assuming either an idealized, horizontally homogeneous environ...
Because of their limited spatial resolution, numerical weather prediction and climate models have to...
Variations in storm microstructure due to updraft strength, liquid water content, and the presence o...
More than one hundred days were simulated over very large domains with fine (0.156 km to 2.5 km) gri...