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Publikacja

Towards better understanding of preferential concentration in clouds: droplets in small vortices

Karpinska K., Malinowski S.P.

Typ publikacji:
Publikacja naukowa nierecenzowana

American Meteorological Society 14th Conference on Cloud Physics/14th Conference on Atmospheric Radiation, At Boston, MA, USA

2014, doi: 10.13140/2.1.4434.9445

Recent studies attribute evolution of droplet size distribution in warm convective clouds to enhancement of collision-coalescence by turbulence. This study is aimed at better understanding of enhanced collisions and preferential concentration by analysis of droplet motion in vortex tubes: small coherent structures characteristic for high Reynolds number turbulent flows. Former research of such effects by Bajer et al., 2000 and by Hill, 2005 was limited to horizontally oriented vortex tubes only. Herein we analyze tubes approximated by point vortices of axes parallel or oblique to the direction of gravity. Droplet motion in a predefined line vortex undergoing stretching is governed by viscosity and gravity forces only, so Stokes equation to examine droplet trajectory is used. Both analytical and numerical solutions of Stokes equation allow to identify features such as stationary points, stationary orbits and limit cycles, which may influence preferential concentration and/or collisions. Stationary orbits exist in vortices aligned with gravity only and depend on all system parameters: droplet mass, vortex stretching strength and circulation. In contrast, such orbits do not exist in oblique vortices, but it is concluded from numerical simulations that under certain conditions droplets are attracted by limit cycles and/or by stationary points. Condition of existence of stationary point can be obtained analytically. For a given vortex circulation and stretching rate, stationary point can exist for the deflection from vertical exceeding certain critical value and for droplets exceeding certain critical radius. Stationary behavior is observed for two components of motion in a plane perpendicular to vortex axis only. Simulations of motion of numerous droplets of the same size, distributed homogeneously in space were conducted in an oblique vortex. For different sets of parameters these simulations showed appearance of stationary points, limit cycles or both. Figure shows droplets initiated in a a plane stable with respect to the motion along the axis (in such a case motion remains two-dimensional) and in unstable plane, where droplets move in third dimension along the vortex axis.

Towards better understanding of preferential concentration in clouds: droplets in small vortices. (PDF Download Available). Available from: https://www.researchgate.net/publication/267335584_Towards_better_understanding_of_preferential_concentration_in_clouds_droplets_in_small_vortices?channel=doi&linkId=544cef920cf2bcc9b1d8e383&showFulltext=true [accessed Oct 2, 2017].


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