Add to ORKGInternational audienceWe present the new scavenging scheme SCAV, simulating the removal of trace gases and aerosol particles by clouds and precipitation in global atmospheric chemistry models. The scheme is quite flexible and can be used for various purposes, e.g. long term chemistry simulations as well as detailed cloud and precipitation chemistry calculations. The presence of clouds can substantially change the chemical composition of the atmosphere. We present a new method of mechanistically coupling gas phase, aerosol, cloud and precipitation chemistry, which enables studies of feedbacks between multiphase chemistry and transport processes
The main focus of this thesis is the development of a simplified method to routinely calculate gas/a...
The overall objective of this project is to improve the understanding of coupling processes between ...
International audienceThe coupled climate-chemistry model ECHAM4.L39(DLR)/CHEM is presented which en...
International audienceWe present the new scavenging scheme SCAV, simulating the removal of trace gas...
International audienceThe representation of cloud and precipitation chemistry and subsequent wet dep...
Clouds are reaction chambers for atmospheric trace gases and aerosols, and the associated precipitat...
International audienceIn this technical note we present the multi-purpose atmospheric chemistry mode...
International audienceIn this technical note we present the multi-purpose atmospheric chemistry mode...
International audienceWe present the MESSy submodel MECCA-AERO, which simulates both aerosol and gas...
International audienceWe describe version 2.0 of the chemistry-climate model (CCM) SOCOL. The new ve...
International audienceWe present the MESSy submodel MECCA-AERO, which simulates both aerosol and gas...
International audienceThe Model of Multiphase Cloud Chemistry M2C2 has recently been extended to acc...
The new submodel AIRSEA for the Modular Earth Submodel System (MESSy) is presented. It calculates th...
International audienceWe briefly present in this short paper a new SIze REsolved Aerosol Model (SIRE...
Anthropogenic changes in the atmospheric abundances of tropospheric ozone and aerosols make signific...
The main focus of this thesis is the development of a simplified method to routinely calculate gas/a...
The overall objective of this project is to improve the understanding of coupling processes between ...
International audienceThe coupled climate-chemistry model ECHAM4.L39(DLR)/CHEM is presented which en...
International audienceWe present the new scavenging scheme SCAV, simulating the removal of trace gas...
International audienceThe representation of cloud and precipitation chemistry and subsequent wet dep...
Clouds are reaction chambers for atmospheric trace gases and aerosols, and the associated precipitat...
International audienceIn this technical note we present the multi-purpose atmospheric chemistry mode...
International audienceIn this technical note we present the multi-purpose atmospheric chemistry mode...
International audienceWe present the MESSy submodel MECCA-AERO, which simulates both aerosol and gas...
International audienceWe describe version 2.0 of the chemistry-climate model (CCM) SOCOL. The new ve...
International audienceWe present the MESSy submodel MECCA-AERO, which simulates both aerosol and gas...
International audienceThe Model of Multiphase Cloud Chemistry M2C2 has recently been extended to acc...
The new submodel AIRSEA for the Modular Earth Submodel System (MESSy) is presented. It calculates th...
International audienceWe briefly present in this short paper a new SIze REsolved Aerosol Model (SIRE...
Anthropogenic changes in the atmospheric abundances of tropospheric ozone and aerosols make signific...
The main focus of this thesis is the development of a simplified method to routinely calculate gas/a...
The overall objective of this project is to improve the understanding of coupling processes between ...
International audienceThe coupled climate-chemistry model ECHAM4.L39(DLR)/CHEM is presented which en...