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- Title
Sources of Stochasticity in the Growth of Cloud Droplets: Supersaturation Fluctuations versus Turbulent Transport.
- Authors
Prabhakaran, Prasanth; Thomas, Subin; Cantrell, Will; Shaw, Raymond A.; Yang, Fan
- Abstract
The role played by fluctuations of supersaturation in the growth of cloud droplets is examined in this study. The stochastic condensation framework and the three regimes of activation of cloud droplets— namely, mean dominant, fluctuation influenced, and fluctuation dominant—are used for analyzing the data from high-resolution large-eddy simulations of the Pi convection-cloud chamber. Based on a detailed budget analysis the significance of all the terms in the evolution of the droplet size distribution equation is evaluated in all three regimes. The analysis indicates that the mean-growth rate is a dominant process in shaping the droplet size distribution in all three regimes. Turbulence introduces two sources of stochasticity, turbulent transport and particle lifetime, and supersaturation fluctuations. The transport of cloud droplets plays an important role in all three regimes, whereas the direct effect of supersaturation fluctuations is primarily related to the activation and growth of the small droplets in the fluctuation-influenced and fluctuation-dominant regimes. We compare our results against the previous studies (experimental and theory) of the Pi chamber, and discuss the limitations of the existing models based on the stochastic condensation framework. Furthermore, we extend the discussion of our results to atmospheric clouds, and in particular focus on recent adiabatic turbulent cloud parcel simulations based on the stochastic condensation framework, and emphasize the importance of entrainment/mixing and turbulent transport in shaping the droplet size distribution.
- Subjects
CLOUD droplets; SUPERSATURATION; LARGE eddy simulation models; TURBULENT mixing; DROP size distribution; STRATOCUMULUS clouds; STOCHASTIC models
- Publication
Journal of the Atmospheric Sciences, 2022, Vol 79, Issue 12, p3145
- ISSN
0022-4928
- Publication type
Article
- DOI
10.1175/JAS-D-22-0051.1