Editorial Type:
Article
Article Type:
Research Article

Condensation Coefficient Measurement for Water in the UMR Cloud Simulation Chamber

D. E. Hagen Department of Physics and Graduate Center for Cloud Physics Research

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J. Schmitt Department of Physics and Graduate Center for Cloud Physics Research

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M. Trueblood Department of Physics and Graduate Center for Cloud Physics Research

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J. Carstens Department of Physics and Graduate Center for Cloud Physics Research

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D. R. White Department of Engineering Mechanics and Graduate Center for Cloud Physics Research

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D. J. Alofs Department of Mechanical Engineering and Graduate Center for Cloud Physics Research

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Print Publication:
15 Mar 1989
DOI:
https://doi.org/10.1175/1520-0469(1989)046<0803:CCMFWI>2.0.CO;2
Page(s):
803–816
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Abstract

A systematic series of condensation coefficient measurements of water have been made using the University of Missouri—Rolla cooled-wall expansion chamber which simulates the thermodynamics of cloud. This coefficient is seen to decrease from a value near unity, at the outset of simulation, to a value in the neighborhood of 0.01 toward the end of a simulation. Final values of this coefficient are sufficiently low as to contribute significantly to the broadening of the drop-size distribution in cloud.

Abstract

A systematic series of condensation coefficient measurements of water have been made using the University of Missouri—Rolla cooled-wall expansion chamber which simulates the thermodynamics of cloud. This coefficient is seen to decrease from a value near unity, at the outset of simulation, to a value in the neighborhood of 0.01 toward the end of a simulation. Final values of this coefficient are sufficiently low as to contribute significantly to the broadening of the drop-size distribution in cloud.

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