Cloud simulations get a dose of realism

Cloud simulations get a dose of realism
Heavy rain over the Alps caused by a cumulonimbus cloud (orange indicates high rainfall). To better visualize the effect of rain, clouds have been removed from both the cloud base and the cumulonimbus cloud toward the camera. Credit: Hädrich et al. 2020

A cloud simulation that captures the development and evolution of clouds based on atmospheric physical processes is more accurate than other models.

"Our describes and thermodynamic processes as well as the that govern the motion of air in the atmosphere," says Torsten Hädrich, a KAUST Ph.D. student in the international research team. "This allows us to simulate cloud phenomena more realistically than previous methods."

The model can take known atmospheric information at any time, such as temperature, humidity and wind, and simulate , which is used for "nowcasting" of imminent cloud phenomena.

"For example, our model is able to simulate the formation of cumulonimbus by considering varying temperature gradients in the atmosphere," says Hädrich. "The gradients lead to temperature inversions at certain altitudes, which are responsible for the characteristic flattened top of cumulonimbus clouds. We can also model different types of supercell thunderstorms, which has not been addressed previously."

Cloud simulations get a dose of realism
The framework developed simulations of high fog around Half Dome in Yosemite National Park. Credit: Hädrich et al 2020

The model was developed by KAUST's Hädrich and Dominik Michels in collaboration with researchers from Adam Mickiewicz University in Poland, the University of New Mexico in the U.S. and Google AI.

To create the model, the team had to resolve a number of physical processes, such as condensation and evaporation, and the complex interplay of physical quantities, such as temperature and humidity, within the simulation.

"Our main challenge was then to determine which parameters contribute to the formation of specific cloud types. We were able to define the physical parameters in our simulation in such a way that we could create specific cloud formations without specific knowledge," Hädrich says.

More information: Hädrich, T., Makowski, M., Palubicki, W., Banuti, D., Pirk, S. & Michels, D. Stormscapes: Simulating cloud dynamics in the now. ACM Transactions on Graphics 39, 175 (2020).

Citation: Cloud simulations get a dose of realism (2021, February 15) retrieved 26 May 2024 from
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