Convergence paper

Code used in:
P. Zmjewski, P. Dziekan and H. Pawlowska
"Modeling Collision-Coalescence in Particle Microphysics:
Numerical Convergence of Mean and Variance of Precipitation in Cloud Simulations"

distributed memory implementation

Code used in the paper:

P. Dziekan and P. Zmijewski
"University of Warsaw Lagrangian Cloud Model (UWLCM) 2.0: Adaptation of a mixed Eulerian-Lagrangian numerical model for heterogeneous computing clusters"

GCCN paper: revision

Code used in simulations presented in the revised version of the paper:

P. Dziekan, J. Jensen, W. Grabowski and H. Pawlowska
"Impact of Giant Sea Salt Aerosol Particles on Precipitation in Marine Cumuli and Stratocumuli”.

The release contains some beta features.

KiD-A paper

Code used when preparing KiD-A simulations for the intercomparison paper.

To be used only for simulating KiD-A.

GCCN paper

Code used in simulations presented in the paper:

P. Dziekan, J. Jensen, W. Grabowski and H. Pawlowska
"Impact of Giant Sea Salt Aerosol Particles on Precipitation in Marine Cumuli and Stratocumuli”.

UWLCM paper

Code used in simulations presented in the paper:

P. Dziekan, M. Waruszewski and H. Pawlowska
"University of Warsaw Lagrangian Cloud Model (UWLCM) 1.0: a modern Large-Eddy Simulation tool for warm cloud modeling with Lagrangian microphysics”

submitted to Geoscientific Model Development.

Version of the code submitted to GMD review with manuscript about chemistry extension of libcloudph++

Merge pull request #327 from pdziekan/delayed_advection

Delayed advection

Version of libcloudph++ used in the PhD thesis of Jaruga

This version contains the aqueous phase chemistry module of the Lagrangian scheme (@trontrytel):

• six trace gases are included: sulfur dioxide, hydrogen peroxide, ozone, carbon dioxide, ammonia and nitric acid
• chemical processes cover dissolving of trace gasses into water drops and their further dissociation into ions and oxidation of the dissolved sulfur dioxide to sulfuric acid.

Additionally this version contains (@pdziekan):

• different advection schemes for super-droplets
• different initialization options (constant multiplicity, more accurate initialization, initialization by specifying the radius and concentration)
• more accurate sub-steps
• aerosol sources
• different collision kernels and terminal velocities for super-droplets
• simulations using many GPUs

1.0.0

The first release accompanying the 2015 Geosci. Model Dev. paper "libcloudph++ 1.0: a single-moment bulk, double-moment bulk, and particle-based warm-rain microphysics library in C++" by Sylwester Arabas, Anna Jaruga, Hanna Pawlowska, Wojciech W.Grabowski.