This study evaluates some available schemes designed to solve the stochastic collection equation (SCE) for collision-coalescence of hydrometeors using a size-resolved (bin) microphysics approach, and documents their numerical properties within the framework of a box model. Comparing three widely used SCE schemes, we find that all converge to almost identical solutions at sufficiently fine mass grids. However, one scheme converges far slower than the other two and shows pronounced numerical diffusion at the large-drop tail of the size distribution. One of the remaining two schemes is recommended on the basis that it is well-converged on a relatively coarse mass grid, stable for large time steps, strictly mass-conservative, and computationall...
A novel, particle based, probabilistic approach for the simulation of cloud microphysics is proposed...
This paper discusses cloud simulations aiming at quantitative assessment of the effects of cloud tur...
An open question in warm rain process and precipitation formation is how rain forms in warm cumulus ...
A case study of persistent stratocumulus over the Azores is simulated using two independent large-ed...
A case study of persistent stratocumulus over the Azores is simulated using two independent large-ed...
Two case studies of marine stratocumulus (one nocturnal and drizzling, the other daytime and nonprec...
Atmospheric models are getting progressively more sophisticated as computational power has grown exp...
Low clouds cover over a quarter of the planet’s surface in the annual mean and exert a significant c...
Warm rain collision-coalescence has been persistently difficult to parameterize in bulk microphysics...
Bin microphysics schemes are useful tools for cloud simulations and are often considered to provide ...
Recently, several Lagrangian microphysical models have been developed which use a large number of (c...
Recently, several Lagrangian microphysical models have been developed which use a large number of (...
An intercomparison study of a midlatitude mesoscale squall line is performed using the Weather Resea...
A two-dimensional (2-D) continuous spectral aerosol-droplet microphysics model is presented and impl...
Cloud microphysics is one of the major sources of uncertainty in numerical weather prediction models...
A novel, particle based, probabilistic approach for the simulation of cloud microphysics is proposed...
This paper discusses cloud simulations aiming at quantitative assessment of the effects of cloud tur...
An open question in warm rain process and precipitation formation is how rain forms in warm cumulus ...
A case study of persistent stratocumulus over the Azores is simulated using two independent large-ed...
A case study of persistent stratocumulus over the Azores is simulated using two independent large-ed...
Two case studies of marine stratocumulus (one nocturnal and drizzling, the other daytime and nonprec...
Atmospheric models are getting progressively more sophisticated as computational power has grown exp...
Low clouds cover over a quarter of the planet’s surface in the annual mean and exert a significant c...
Warm rain collision-coalescence has been persistently difficult to parameterize in bulk microphysics...
Bin microphysics schemes are useful tools for cloud simulations and are often considered to provide ...
Recently, several Lagrangian microphysical models have been developed which use a large number of (c...
Recently, several Lagrangian microphysical models have been developed which use a large number of (...
An intercomparison study of a midlatitude mesoscale squall line is performed using the Weather Resea...
A two-dimensional (2-D) continuous spectral aerosol-droplet microphysics model is presented and impl...
Cloud microphysics is one of the major sources of uncertainty in numerical weather prediction models...
A novel, particle based, probabilistic approach for the simulation of cloud microphysics is proposed...
This paper discusses cloud simulations aiming at quantitative assessment of the effects of cloud tur...
An open question in warm rain process and precipitation formation is how rain forms in warm cumulus ...