Evidence for inertial droplet clustering in weakly turbulent clouds

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Date
2017
Volume
59
Issue
1
Journal
Series Titel
Book Title
Publisher
Milton Park : Taylor & Francis
Abstract

Simultaneous observations of cloud droplet spatial statistics, cloud droplet size distribution and cloud turbulence were made during several cloud passages, including cumulus clouds and a stratus cloud. They provide evidence that inertial droplet clustering occurs even in weakly turbulent clouds. The measurements were made from the Airborne Cloud Turbulence Observation System suspended from a tethered balloon. For a profile through a stratus cloud with gradually changing droplet Stokes number, droplet clustering, quantified by the pair correlation function, is observed to be positively correlated with the droplet Stokes number. This implies that the droplet collision rate, which is relevant to drizzle formation via droplet coalescence, depends not only on the droplet size distribution, but also on the cloud turbulence. For cumulus clouds, the relation between droplet clustering and Stokes number seems more complicated. Stokes number is determined by measuring droplet size and local energy dissipation rate, the latter requiring highresolution air velocity measurements not possible on fast-flying aircraft.

Description
Keywords
airborne sensing, cloud droplet, coalescence, correlation, cumulus, turbulence
Citation
Lehmann, K., Siebert, H., Wendisch, M., & Shaw, R. A. (2017). Evidence for inertial droplet clustering in weakly turbulent clouds. 59(1). https://doi.org//10.1111/j.1600-0889.2006.00229.x
License
CC BY 4.0 Unported