Global Storm Resolving Climate Models
Presentation by Daniel Klocke and the DYAMOND team given on 6 July 2021 at the minisymposium "Towards Kilometer-Scale Global Storm-Resolving Weather and Climate Simulations, Part II" at the virtual PASC21 conference.
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DYAMOND: the DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains
A review of the experimental protocol and motivation for DYAMOND, the first intercomparison project of global storm-resolving models, is presented. Nine models submitted simulation output for a 40-day (1 August–10 September 2016) intercomparison period ...
Bjorn Stevens +20 more
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Urban coastal flooding is a global humanitarian and socioeconomic hazard. Rising sea levels will increase the likelihood of hydrologic events interacting with high marine water levels.
Boxiang Tang, T. W. Gallien
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Sensitivity of simulated storm life span to ventilation parameterization in a cloud resolving model
We perform a sensitivity study on the ventilation effect of large hydrometeors, namely, raindrops, snow aggregates, and hail in a cloud-resolving model.
Yen-Liang Chou +2 more
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Assessing the destructiveness of tropical cyclones induced by anthropogenic aerosols in an atmosphere–ocean coupled framework [PDF]
Intense tropical cyclones (TCs) can cause catastrophic damage to coastal regions after landfall. Recent studies have linked the devastation associated with TCs to climate change, which induces favorable conditions, such as increasing sea-surface ...
Y. Lin +9 more
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The reduction of storm surge by vegetation canopies: Three‐dimensional simulations
Significant buffering of storm surges by vegetation canopies has been suggested by limited observations and simple numerical studies, particularly following recent Hurricanes Katrina, Rita, and Wilma.
Y. Peter Sheng +2 more
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How the representation of microphysical processes affects tropical condensate in the global storm-resolving model ICON [PDF]
Cloud microphysics is a prime example of processes that remain unresolved in atmospheric modeling at storm-resolving resolution. In this study, we explore how uncertainties in the representation of microphysical processes affect the tropical condensate ...
A. K. Naumann +3 more
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A Three-Dimensional Simulation of Supercell Convective Storm
A supercell convective storm is simulated by using a cloud-resolving model. Numerical experiments have been performed in 3D by using the same domain size, with a different spatial and temporal resolution of the model.
V. Spiridonov, Z. Dimitrovski, M. Curic
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Shallow Cumulus Cloud Feedback in Large Eddy Simulations – Bridging the Gap to Storm Resolving Models [PDF]
Abstract. The response of shallow trade cumulus clouds to global warming is a leading source of uncertainty to interpretations and projections of the Earth's changing climate. A setup based on the Rain In Cumulus over the Ocean field campaign is used to simulate a shallow trade wind cumulus field with the Icosahedral Non-hydrostatic Large Eddy Model in
J. Radtke +3 more
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Evaluating Mean State Cloud Properties in the Simple Cloud‐Resolving E3SM Atmosphere Model (SCREAM)
Accurately simulating clouds remains a key challenge in global climate models, primarily because cloud formation involves sub‐grid processes that are parameterized and crudely represented in models.
Li‐Wei Chao +7 more
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