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7726656 
Journal Article 
An online emission module for atmospheric chemistry transport models: implementation in COSMO-GHG v5.6a and COSMO-ART v5.1-3.1 
Jahn, M; Kuhlmann, G; Mu, Q; Haussaire, JM; Ochsner, D; Osterried, K; Clement, V; Brunner, D 
2020 
Geoscientific Model Development
ISSN: 1991-959X
EISSN: 1991-9603 
Copernicus Gesellschaft Mbh 
GOTTINGEN 
13 
2379-2392 
English 
WOS:000537580900002 
Emission inventories serve as crucial input for atmospheric chemistry transport models. To make them usable for a model simulation, they have to be pre-processed and, traditionally, provided as input files at discrete model time steps. In this paper, we present an "online" approach, which produces a minimal number of input data read-in at the beginning of a simulation and which handles essential processing steps online during the simulation. For this purpose, a stand-alone Python package "emiproc" was developed, which projects the inventory data to the model grid and generates temporal and vertical scaling profiles for individual emission categories. The package is also able to produce "offline" emission files if desired. Furthermore, we outline the concept of the online emission module (written in Fortran 90) and demonstrate its implementation in two different atmospheric transport models: COSMO-GHG and COSMO-ART. Simulation results from both modeling systems show the equivalence of the online and offline procedure. While the model run time is very similar for both approaches, input size and pre-processing time are greatly reduced when online emissions are utilized. 
GEOSCIENTIFIC MODEL DEVELOPMENT