Changes of cloud microphysical properties during the transition from supercooled to mixed-phase conditions during CIME

A ground-based seeding experiment using carbon dioxide and propane sprayed from pressurized bottles was carried out under supercooled cloud conditions on a small spatial and short time scale. Water vapor deposition on the artificially generated dry ice and propane ice germs as the main ice formation...

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Veröffentlicht in:	Atmospheric research 2001-09, Vol.58 (4), p.267-294
Hauptverfasser:	Mertes, Stephan, Schwarzenböck, Alfons, Laj, Paolo, Wobrock, Wolfram, Pichon, Jean-Marc, Orsi, Giordano, Heintzenberg, Jost
Format:	Artikel
Sprache:	eng
Schlagworte:	Cold cloud seeding Condensed water content Ice formation Mixed-phase clouds Ocean, Atmosphere Sciences of the Universe
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container_end_page	294
container_issue	4
container_start_page	267
container_title	Atmospheric research
container_volume	58
creator	Mertes, Stephan Schwarzenböck, Alfons Laj, Paolo Wobrock, Wolfram Pichon, Jean-Marc Orsi, Giordano Heintzenberg, Jost
description	A ground-based seeding experiment using carbon dioxide and propane sprayed from pressurized bottles was carried out under supercooled cloud conditions on a small spatial and short time scale. Water vapor deposition on the artificially generated dry ice and propane ice germs as the main ice formation process (nucleation and growth) is consistent with the experimental results. After nucleation, diffusional growth of the ice particles, partly at the expense of evaporating small droplets, was identified during the mixing of the seeding line with the ambient supercooled cloud. Within the seeding plume, ice water contents up to 80% of the total condensed water are observed, although the size of the formed ice particles did not exceed 25 μm. From the changes of the ice and supercooled liquid phase with time under mixed-phase conditions, liquid water content (LWC) evaporation, ice water content (IWC) formation, and ice crystal growth rates are estimated, which are not affected by the artificial nucleation process. Thus, these rates are assessed to be applicable for a growing ice phase of small ice particles in a young mixed-phase cloud, where other growth mechanisms, like riming or aggregation, are negligible.
doi_str_mv	10.1016/S0169-8095(01)00095-3
format	Article
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source	ScienceDirect Journals (5 years ago - present)
subjects	Cold cloud seeding Condensed water content Ice formation Mixed-phase clouds Ocean, Atmosphere Sciences of the Universe
title	Changes of cloud microphysical properties during the transition from supercooled to mixed-phase conditions during CIME
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