The kinetic equation of stochastic condensation for cloud drop size spectra is extended to account for crystalline clouds and also to include the accretion/aggregation process. The size spectra are separated into small and large size fractions that correspond to cloud drops (ice) and rain (snow). In Part I, we derive analytical solutions for the small-size fraction of the spectra that correspond to cloud drops and cloud ice particles that can be identified with cloud liquid water or cloud ice water content used in bulk microphysical schemes employed in cloud and climate models. Solutions for the small-size fraction have the form of generalized gamma distributions. Simple analytical expressions are found for parameters of the gamma distribut...
Four different studies examining parameterizations of particle size distribution, sedimentation, aut...
We present a new cloud scheme for the ECHAM‐HAM global climate model (GCM) that includes prognostic ...
Aerosols influence cloud and precipitation development in complex ways due to myriad feedbacks at a ...
The kinetic equation of stochastic condensation for cloud drop size spectra is extended to account f...
The kinetic equation of stochastic condensation derived in Part I is solved analytically under some ...
In order to understand the mechanisms of formation of broad size spectra of cloud droplets and to de...
The evolution of a hydrometeor ensemble („cloud“ ) can be described using a balance equation for its...
Single-layer mixed-phase stratiform (MPS) Arctic clouds, which formed under conditions of large surf...
The question of whether persistent ice crystal precipitation from supercooled layer clouds can be ex...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Aerosol particles exert substantial radiative effects on the Earth's climate directly by scattering ...
This study presents continued development of the Nenes and Seinfeld (2003) cloud droplet activation ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
This paper presents the development and application of a binned approach to cloud-droplet riming wit...
This study presents continued development of the Nenes and Seinfeld (2003) cloud droplet activation ...
Four different studies examining parameterizations of particle size distribution, sedimentation, aut...
We present a new cloud scheme for the ECHAM‐HAM global climate model (GCM) that includes prognostic ...
Aerosols influence cloud and precipitation development in complex ways due to myriad feedbacks at a ...
The kinetic equation of stochastic condensation for cloud drop size spectra is extended to account f...
The kinetic equation of stochastic condensation derived in Part I is solved analytically under some ...
In order to understand the mechanisms of formation of broad size spectra of cloud droplets and to de...
The evolution of a hydrometeor ensemble („cloud“ ) can be described using a balance equation for its...
Single-layer mixed-phase stratiform (MPS) Arctic clouds, which formed under conditions of large surf...
The question of whether persistent ice crystal precipitation from supercooled layer clouds can be ex...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
Aerosol particles exert substantial radiative effects on the Earth's climate directly by scattering ...
This study presents continued development of the Nenes and Seinfeld (2003) cloud droplet activation ...
A revised approach to cloud microphysical processes in a commonly used bulk microphysics parameteriz...
This paper presents the development and application of a binned approach to cloud-droplet riming wit...
This study presents continued development of the Nenes and Seinfeld (2003) cloud droplet activation ...
Four different studies examining parameterizations of particle size distribution, sedimentation, aut...
We present a new cloud scheme for the ECHAM‐HAM global climate model (GCM) that includes prognostic ...
Aerosols influence cloud and precipitation development in complex ways due to myriad feedbacks at a ...