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The dependence of the climate simulated in a global storm-resolving model on its vertical resolution
2022<p>In global atmospheric modeling the importance of an appropriate ratio of vertical to horizontal model resolution has been emphasized earlier. Theoretical considerations for appropriate ratios have been based, e.g., on quasi-geostrophic considerations for large-scale flows and the dissipation conditions for gravity waves.
Hauke Schmidt, Sebastian Rast
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Getting a single tropical rainbelt in a global storm-resolving model
Resolving deep convection using a horizontal grid spacing of 10 km or finer was supposed to produce a correct representation of tropical precipitation. Global coupled or uncoupled storm-resolving simulations using the ICOsahedral Non-hydrostatic model (ICON) show a proper representation of the tropical rainbelt over land. However, the tropical rainbeltHans Segura +13 more
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Climate simulations with global storm-resolving models from transient states.
Climate models are an important tool to address challenges we face due to the changing climate. The global warming of the atmosphere and ocean leads to an increase in energy accessible to foster more frequent and intense tropical cyclones, extreme precipitation, and heatwaves, causing increasingly larger economic and non-economic damage.Kai Keller +5 more
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Journal of Climate
Abstract This study compares the characteristics of global mesoscale convective systems (MCSs) simulated in a global storm-resolving model (GSRM) and a high-resolution (∼25-km) general circulation model (GCM), both developed at the Geophysical Fluid Dynamics Laboratory.
Wenhao Dong +6 more
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Abstract This study compares the characteristics of global mesoscale convective systems (MCSs) simulated in a global storm-resolving model (GSRM) and a high-resolution (∼25-km) general circulation model (GCM), both developed at the Geophysical Fluid Dynamics Laboratory.
Wenhao Dong +6 more
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EarthCARE's Potential to Evaluate a Global Storm-Resolving Model Using a Satellite Simulator
EarthCARE, equipped with a suite of passive and active sensors, including Cloud Profiling Radar (CPR), Atmospheric LIDar (ATLID), Multi-Spectral Imager (MSI), and Broad Band Radiometer (BBR), is designed for comprehensive studies of clouds, aerosols, precipitation, and their radiation impact.Woosub Roh, Masaki Satoh
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How model uncertainties influence tropical humidity in global storm-resolving simulations
2022Theresa Lang +5 more
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Tropical Cirrus in Global Storm-Resolving Models
Samantha M Turbeville +2 moreopenaire +1 more source
Understanding tropical cyclone frequency biases in a global storm resolving model
Geraldine Neljon Emlaw +5 moreopenaire +1 more source

