On the Progressive Attenuation of Finescale Orography Contributions to the Vertical Coordinate Surfaces within a Terrain-Following Coordinate System
Type de ressource
Auteurs/contributeurs
- Husain, Syed Zahid (Auteur)
- Girard, Claude (Auteur)
- Separovic, Leo (Auteur)
- Plante, André (Auteur)
- Corvec, Shawn (Auteur)
Titre
On the Progressive Attenuation of Finescale Orography Contributions to the Vertical Coordinate Surfaces within a Terrain-Following Coordinate System
Résumé
Abstract A modified hybrid terrain-following vertical coordinate has recently been implemented within the Global Environmental Multiscale atmospheric model that introduces separately controlled height-dependent progressive decaying of the small- and large-scale orography contributions on the vertical coordinate surfaces. The new vertical coordinate allows for a faster decay of the finescale orography imprints on the coordinate surfaces with increasing height while relaxing the compression of the lowest model levels over complex terrain. A number of tests carried out—including experiments involving Environment and Climate Change Canada’s operational regional and global deterministic prediction systems—demonstrate that the new vertical coordinate effectively eliminates terrain-induced spurious generation and amplification of upper-air vertical motion and kinetic energy without increasing the computational cost. Results also show potential improvements in precipitation over complex terrain.
Publication
Monthly Weather Review
Volume
148
Numéro
10
Date
2020-10-01
Extra
DOI: 10.1175/mwr-d-20-0085.1
MAG ID: 3072768242
Référence
Husain, S. Z., Girard, C., Separovic, L., Plante, A., & Corvec, S. (2020). On the Progressive Attenuation of Finescale Orography Contributions to the Vertical Coordinate Surfaces within a Terrain-Following Coordinate System. Monthly Weather Review, 148(10). https://doi.org/10.1175/mwr-d-20-0085.1
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