the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Overview of the Meso-NH model version 5.4 and its applications
Christine Lac
Jean-Pierre Chaboureau
Valéry Masson
Jean-Pierre Pinty
Juan Escobar
Benjamin Aouizerats
Pierre Aumond
Franck Auguste
Sarah Berthet
Soline Bielli
Frédéric Bosseur
Fleur Couvreux
Joan Cuxart
Gaëlle Delautier
Jean-Baptiste Filippi
Didier Gazen
Olivier Geoffroy
Rachel Honnert
Jean-Philippe Lafore
Cindy Lebeaupin Brossier
Thibaut Lunet
Céline Mari
Tomislav Maric
Patrick Mascart
Maxime Mogé
Gilles Molinié
Olivier Nuissier
Philippe Peyrillé
Julien Pergaud
Emilie Perraud
Jean-Luc Redelsperger
Didier Ricard
Evelyne Richard
Quentin Rodier
Joël Stein
Karsten Suhre
Marie Taufour
Odile Thouron
Florian Visentin
Abstract. This paper presents the Meso-NH model version 5.4. Meso-NH is an atmospheric non hydrostatic research model that is applied to a broad range of resolutions, from synoptic to turbulent scales, and is designed for studies of physics and chemistry. It is a limited-area model employing advanced numerical techniques, including monotonic advection schemes for scalar transport and fourth-order centered or odd-order WENO advection schemes for momentum. The model includes state-of-the-art physics parameterization schemes that are important to represent convective-scale phenomena and turbulent eddies, as well as flows at larger scales. In addition, Meso-NH has been expanded to provide capabilities for a range of Earth system prediction applications such as chemistry and aerosols, electricity and lightning, hydrology, wildland fires, volcanic eruptions, and cyclones with ocean coupling. Here, we present the main innovations to the dynamics and physics of the code since the pioneer paper of Lafore et al. (1998) and provide an overview of recent applications and couplings.
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