Cloud processing, cloud evaporation and Angström exponent

Publication date

2008

Authors

Roelofs, G. J HISNI 0000000395714497
Kamphuis, V.

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Article
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Abstract

With a cloud parcel model we investigated how cloud processing and cloud evaporation modify the size distribution and the Angström exponent of an aerosol population. Cloud processing causes a decrease in particle concentrations, relatively most efficiently in the coarse mode, and reduces the relative dispersion of the aerosol distribution. As a result the Angström exponent of the aerosol increases. The Angström exponent is subject to other influences. It is very sensitive for relative humidity, especially between 95% and 100%. In addition, kinetic limitations delay droplet evaporation during cloud dissipation, which hampers a direct relation between the Angström exponent and the relative humidity. Consequently, a direct interpretation of the Angström exponent in terms of aerosol properties that play a role in aerosol-cloud interactions, such as the fine mode fraction, is rather complex.

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Citation

Roelofs, G J H & Kamphuis, V 2008, 'Cloud processing, cloud evaporation and Angström exponent', Atmospheric Chemistry and Physics Discussions, vol. 8, no. 4, pp. 12721-12736.