Implementation of the chemistry module MECCA (v2.5) in the modal aerosol version of the Community Atmosphere Model component (v3.6.33) of the Community Earth System Model

In addition to a complete update of the rate coe ffi cients to the most recent recommendations, a number of new features have been added: chemistry in multiple aerosol size

The chemistry is fully integrated into the Community Atmosphere Model (Fig. 1), meaning that the representation of dynamics (in- cluding transport) and physics (radiation,

Here, we present test simulations using MESSy atmospheric physics and chemistry submodels for the atmosphere, with execution and data handling done by MESSy generic in-

Utilizing the MERRA2 reanalysis and a fully coupled chemistry–climate simulation with the Community Earth System Model (CESM1(WACCM)) of the National Center for Atmospheric

The ECHAM/MESSy Atmospheric Chemistry (EMAC) model is coupled to the ocean general circulation model MPIOM using the Modular Earth Submodel System (MESSy) interface.. MPIOM is

The structure of the remelting zone of the steel C90 steel be- fore conventional tempering consitute cells, dendritic cells, sur- rounded with the cementite, inside of

alytic expression results in the optimal tradeoff between re- quired computational time and resulting RMSD, I050A will be used as base numerical experiment and reference to study

A coupled atmospheric chemistry and climate system model was developed using the modal aerosol version of the National Center for Atmospheric Research Community Atmosphere