OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

Huijnen, Vincent; Sager, Philippe Le; Köhler, Marcus O.; Carver, G. D.; Rémy, Samuel; Flemming, Johannes; Chabrillat, Simon; Errera, Quentin; Noije, Twan van

doi:10.5194/gmd-15-6221-2022

Cited by 5 publications

(1 citation statement)

References 67 publications

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“…Data availability. The OpenIFS/AC output data and scripts, as used for evaluations presented in this paper, can be downloaded from Zenodo at https://doi.org/10.5281/zenodo.6406674 (Huijnen, 2022).…”

Section: Discussionmentioning

confidence: 99%

OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

Huijnen

Sager

Köhler

et al. 2022

Preprint

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Abstract. In this paper, we report on the first implementation of atmospheric chemistry and aerosol as part of the European Centre for Medium-Range Weather Forecasts (ECMWF) OpenIFS model. For this, modules and input data for model cycle CY43R3, which have been developed as part of the Copernicus Atmosphere Monitoring Service (CAMS), have been ported to OpenIFS: the modified CB05 tropospheric chemistry scheme, the AER bulk-bin tropospheric aerosol module, as well as the option to use BASCOE-based stratospheric ozone chemistry. We give an overview of the model, and describe the datasets used for emissions and dry deposition, which are similar to those used in the model configuration applied to create the CAMS Reanalysis. We evaluate two reference model configurations with and without the stratospheric chemistry extension against standard observational datasets for tropospheric ozone, surface carbon monoxide (CO), tropospheric nitrogen dioxide (NO2) and aerosol optical depth. The results give basic confidence in the model implementation and configuration. This OpenIFS version with atmospheric composition components is open to the scientific user community under a standard OpenIFS license.

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Section: Discussionmentioning

confidence: 99%

OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

Huijnen

Sager

Köhler

et al. 2022

Preprint

Self Cite

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Large-scale ozone episodes in Europe: Decreasing sizes in the last decades but diverging changes in the future

Crespo-Miguel,

Ordóñez,

García-Herrera

et al. 2024

Science of The Total Environment

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A computationally efficient parameterization of aerosol, cloud and precipitation pH for application at global and regional scale (EQSAM4Clim-v12)

Metzger,

Rémy,

Williams

et al. 2024

Geosci. Model Dev.

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Abstract. The Equilibrium Simplified Aerosol Model for Climate version 12 (EQSAM4Clim-v12) has recently been revised to provide an accurate and efficient method for calculating the acidity of atmospheric particles. EQSAM4Clim is based on an analytical concept that is not only sufficiently fast for chemical weather prediction applications but also free of numerical noise, which also makes it attractive for air quality forecasting. EQSAM4Clim allows the calculation of aerosol composition based on the gas–liquid–solid and the reduced gas–liquid partitioning with the associated water uptake for both cases and can therefore provide important information about the acidity of the aerosols. Here we provide a comprehensive description of the recent changes made to the aerosol acidity parameterization (referred to as a version 12) which builds on the original EQSAM4Clim. We evaluate the pH improvements using a detailed box model and compare them against previous model calculations and both ground-based and aircraft observations from the USA and China, covering different seasons and scenarios. We show that, in most cases, the simulated pH is within reasonable agreement with the reference results of the Extended Aerosol Inorganics Model (E-AIM) and of satisfactory accuracy.

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OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

Cited by 5 publications

References 67 publications

OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

OpenIFS/AC: atmospheric chemistry and aerosol in OpenIFS 43r3

Large-scale ozone episodes in Europe: Decreasing sizes in the last decades but diverging changes in the future

A computationally efficient parameterization of aerosol, cloud and precipitation pH for application at global and regional scale (EQSAM4Clim-v12)

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