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- ‘We’re changing the clouds. ’ An unintended test of . . .
Instead of focusing on visible tracks, Watson-Parris and his colleagues started with ship location data, combining those coordinates with weather records to project where the ships’ pollution traveled They compared clouds at these locations with nearby clouds free of any ship pollution
- Uncovering the Latest Cloud Seeding Projects: A Comprehensive . . .
Cloud seeding is a weather modification technique aimed at enhancing precipitation by introducing seeding agents into clouds Understanding the fundamentals of cloud seeding is essential for comprehending the objectives, methods, and outcomes of recent projects
- Variations of aerosol and cloud vertical characteristics . . .
Vertical information about aerosols and clouds is vital to understanding aerosol transport, aerosol-cloud interactions, and pollution-weather-climate feedback so as to reduce uncertainties in estimating their climatic effects
- Distinct Change of Supercooled Liquid Cloud Properties by . . .
Using the data from a cloud seeding experiment, this study investigates the differences of cloud properties between before and after the cloud seeding for a supercooled liquid cloud It shows that before the cloud seeding, the clouds are supercooled liquid phase clouds
- Aerosol and cloud properties over a coastal area from . . .
Marine type aerosols show a strong negative N a -cloud ED relationship Using in-situ aircraft observations from six flights over Zhejiang on Sep 1 and Sep 4, 2016, this study investigates differences in aerosol and cloud properties between daytime and nighttime
- Toward data assimilation of ship-induced aerosol cloud . . .
In this paper, we demonstrate a simulation-based approach in learning the behavior of ship tracks based upon a novel stochastic emulation mechanism Our method uses wind fields to determine the movement of aerosol cloud tracks and uses a stochastic partial differential equation (SPDE) to model their persistence behavior
- Distinct Microphysical Characteristics of Precipitating and . . .
Cloud microphysical properties play a crucial role in stratus cloud behavior, with notable differences between precipitating and non-precipitating parts This study presents aircraft-based observations on 8 May 2020 over a coastal region in China, to investigate the microphysical characteristics of a liquid stratus cloud
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