Assessment of MPAS variable resolution simulations in the grey-zone of convection against WRF model results and observations
Autor: | Dominikus Heinzeller, Wim van den Berg, Hugo Hartmann, Geert-Jan Steeneveld, Matthijs Kramer |
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Rok vydání: | 2018 |
Předmět: |
Meteorologie en Luchtkwaliteit
Convection Atmospheric Science Voronoi grid Meteorology and Air Quality 010504 meteorology & atmospheric sciences WRF Mesoscale meteorology Weather forecasting Numerical weather prediction Föhn 010502 geochemistry & geophysics computer.software_genre 01 natural sciences Polygon mesh 0105 earth and related environmental sciences WIMEK Grey-zone MPAS Grid Hail Weather Research and Forecasting Model Climatology Environmental science Voronoi diagram computer Convection-permitting forecast |
Zdroj: | Climate Dynamics 55 (2020) Climate Dynamics, 55, 253-276 |
ISSN: | 1432-0894 0930-7575 |
Popis: | Regional weather forecasting models like the Weather Research and Forecasting (WRF) model allow for nested domains to save computational effort and provide detailed results for mesoscale weather phenomena. The sudden resolution change by nesting may cause artefacts in the model results. On the contrary, the novel global Model for Prediction Across Scales (MPAS) runs on Voronoi meshes that allow for smooth resolution transition towards the desired high resolution in the region of interest. This minimises the resolution-related artefacts, while still saving computational effort. We evaluate the MPAS model over Europe focussing on three mesoscale weather events: a synoptic gale over the North Sea, a föhn effect in Switzerland, and a case of organised convection with hail over the Netherlands. We use four different MPAS meshes (60 km global refined to-3 km (60– 3 km), analogous 30–3 km, 15–3 km, global 3 km) and compare their results to routine observations and a WRF setup with a single domain of 3 km grid spacing. We also discuss the computational requirements for the different MPAS meshes and the operational WRF setup. In general, the MPAS 3 km and WRF model results correspond to the observations. However, a global model at 3 km resolution as a replacement for WRF is not feasible for operational use. More importantly, all variable-resolution meshes employed in this study show comparable skills in short-term forecasting within the high-resolution area at considerably lower computational costs. |
Databáze: | OpenAIRE |
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