Your search keyword '"Daniel Martín-Pérez"' showing total 2 results

1. Impact of the Microphysics in HARMONIE-AROME on Fog

Author

Sebastián Contreras Osorio, Daniel Martín Pérez, Karl-Ivar Ivarsson, Kristian Pagh Nielsen, Wim C. de Rooy, Emily Gleeson, and Ewa McAufield

Subjects

Fog, Atmospheric Science, Cloud droplet size distribution, fog, cloud microphysics, HARMONIE-AROME, numerical weather prediction (NWP), cloud droplet number concentration, cloud droplet size distribution, Cloud microphysics, Numerical weather prediction, Cloud droplet number concentration, Environmental Science (miscellaneous)

Abstract

This study concerns the impact of microphysics on the HARMONIE-AROME NWP model. In particular, the representation of cloud droplets in the single-moment bulk microphysics scheme is examined in relation to fog forecasting. We focus on the shape parameters of the cloud droplet size distribution and recent changes to the representation of the cloud droplet number concentration (CDNC). Two configurations of CDNC are considered: a profile that varies with height and a constant one. These aspects are examined together since few studies have considered their combined impact during fog situations. We present a set of six experiments performed for two non-idealised three-dimensional case studies over the Iberian Peninsula and the North Sea. One case displays both low clouds and fog, and the other shows a persistent fog field above sea. The experiments highlight the importance of the considered parameters that affect droplet sedimentation, which plays a key role in modelled fog. We show that none of the considered configurations can simultaneously represent all aspects of both cases. Hence, continued efforts are needed to introduce relationships between the governing parameters and the relevant atmospheric conditions.

Published

2022

2. Use of CAMS near Real-Time Aerosols in the HARMONIE-AROME NWP Model

Author

Daniel Martín Pérez, Emily Gleeson, Panu Maalampi, and Laura Rontu

Subjects

near real-time aerosols, CAMS, NWP, radiation, microphysics, Meteorology. Climatology, QC851-999

Abstract

Near real-time aerosol fields from the Copernicus Atmospheric Monitoring Services (CAMS), operated by the European Centre for Medium-Range Weather Forecasts (ECMWF), are configured for use in the HARMONIE-AROME Numerical Weather Prediction model. Aerosol mass mixing ratios from CAMS are introduced in the model through the first guess and lateral boundary conditions and are advected by the model dynamics. The cloud droplet number concentration is obtained from the aerosol fields and used by the microphysics and radiation schemes in the model. The results show an improvement in radiation, especially during desert dust events (differences of nearly 100 W/m2 are obtained). There is also a change in precipitation patterns, with an increase in precipitation, mainly during heavy precipitation events. A reduction in spurious fog is also found. In addition, the use of the CAMS near real-time aerosols results in an improvement in global shortwave radiation forecasts when the clouds are thick due to an improved estimation of the cloud droplet number concentration.

Published

2024