Simulating Clouds on Arbitrary Grids in Any Spatial Direction

The development of a cloud simulation method for arbitrary grids in any spatial direction is a significant breakthrough in atmospheric science. This innovative approach enables researchers to study cloud behavior with greater accuracy and detail, leading to improved weather forecasts and enhanced understanding of climate dynamics. The ability to simulate clouds on diverse grids holds great potential for advancing our knowledge of atmospheric processes and their impact on Earth's climate system.
Source: Journal of Advances in Modeling Earth Systems
cloud 1 | Simulating Clouds on Arbitrary Grids in Any Spatial Direction | The development of a cloud simulation method for arbitrary grids in any spatial direction is a significant breakthrough in atmospheric science. This innovative approach enables researchers to study cloud behavior with greater accuracy and detail, leading to improved weather forecasts and enhanced understanding of climate dynamics. The ability to simulate clouds on diverse grids holds great potential for advancing our knowledge of atmospheric processes and their impact on Earth's climate system. | Wellcare World | Atmospheric Science, Climate Modeling, Cloud Simulation

A 3D mature storm 2 hours into a simulation with the new implementation. The clouds are colored in gray, the semi-transparent blue shading represents the presence of rain, and the light and dark blue shadings represent temperature, showing where the air is cold due to evaporating rain. A sample of the 3D unstructured grid used for the simulation is shown in the background. Credit: Tissaoui et al. [2023], Figure 8

Addressing Cloud Modeling Uncertainties through High-Resolution Simulations

The Earth’s climate is warming faster than ever. While climate models are the tool available to scientists to forecast its future evolution, they are biased by uncertainties that are, arguably, mostly present in the modeling of clouds.

As more and more powerful computers become available, a reduction of cloud modeling uncertainties can be expected by simulating clouds at higher resolutions. While the simplest approach is to increase resolution everywhere in a simulation, computational resources need to be used wisely; for example, by increasing the resolution only in places where deemed necessary. Grid refinement in the vertical direction, however, may lead to the loss of the vertical structure of the grid columns, in which case it becomes much more difficult to use the traditionally column-based physics packages that are utilized to model clouds and precipitation.

Tissaoui et al. [2023] propose a solution to this problem by presenting an algorithm to solve the equations that model clouds and rain on arbitrary grids in any spatial direction.|[2023] present a solution for this problem, presenting an algorithm that solves the equations to model clouds and rainfall on any arbitrary grids.|[2023] proposes a solution to the problem by presenting a method to solve equations that simulate clouds and rain in any spatial direction.} {This approach is also advantageous from a computational perspective since it allows full 3D flexibility in splitting the work among hundreds or thousands of processors.|This approach has also been found to be advantageous in terms of computation, as it allows for full 3D flexibility when splitting the work between hundreds or thousands processors.

Citation: Tissaoui, Y., Marras, S., Quaini, A., de Brangaca Alves, F. A. V., & Giraldo, F. X. (2023). A non-column based, fully unstructured implementation of Kessler’s microphysics with warm rain using continuous and discontinuous spectral elements. Journal of Advances in Modeling Earth Systems, 15, e2022MS003283. https://doi.org/10.1029/2022MS003283

–Jiwen Fan, Editor, JAMES

{Text (c) 2023.|Text (c): 2023.|The authors.} {The authors.|The authors.|The authors.} CC BY-NC-ND 3.0

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