A new snow melting parametrization is presented for the non-hydrostatic limited-area COSMO ("consortium for small-scale modelling") model. In contrast to the standard cloud microphysics of the COSMO model, which instantaneously transfers the meltwater from the snow to the rain category, the new scheme explicitly considers the liquid water fraction of the melting snowflakes. These semi-melted hydrometeors have characteristics (e.g., shape and fall speed) that differ from those of dry snow and rain droplets. Where possible, theoretical considerations and results from vertical wind tunnel laboratory experiments of melting snowflakes are used as the basis for characterising the melting snow as a function of its liquid water fraction. These char...
Because of the high sensitivity of the climate system to anomalies of the snow cover, appropriate mo...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
A new snow melting parametrization is presented for the non-hydrostatic limited-area COSMO ("consort...
A new snow melting parametrization is presented for the non-hydrostatic limited-area COSMO ("consort...
The prediction of snowfall is particularly challenging for numerical weather prediction models. At t...
International audienceSimulations of an idealized stratiform cloud system are performed with the 3D ...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
The melting layer in precipitation is physically modeled and compared with high resolution Doppler r...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
none6noA microphysically based algorithm (named Snow Aggregation and Melting (SAM)) that models snow...
The transition from ice to liquid phase of precipitating particles in the atmospheric melting layer ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Abstract Melting, freezing, and evaporation of individual and aggregates of snow crystal...
A simple 1D kinematic cloud model coupled to a two-moment bulk microphysics scheme is used to perfor...
Because of the high sensitivity of the climate system to anomalies of the snow cover, appropriate mo...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
A new snow melting parametrization is presented for the non-hydrostatic limited-area COSMO ("consort...
A new snow melting parametrization is presented for the non-hydrostatic limited-area COSMO ("consort...
The prediction of snowfall is particularly challenging for numerical weather prediction models. At t...
International audienceSimulations of an idealized stratiform cloud system are performed with the 3D ...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
The melting layer in precipitation is physically modeled and compared with high resolution Doppler r...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
none6noA microphysically based algorithm (named Snow Aggregation and Melting (SAM)) that models snow...
The transition from ice to liquid phase of precipitating particles in the atmospheric melting layer ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Abstract Melting, freezing, and evaporation of individual and aggregates of snow crystal...
A simple 1D kinematic cloud model coupled to a two-moment bulk microphysics scheme is used to perfor...
Because of the high sensitivity of the climate system to anomalies of the snow cover, appropriate mo...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...