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Abstract
Cloud condensation nuclei(CCN)constitute a reservoir of latent ice-forming nuclei(IFN)active by condensation-followed-by-freezing and by sorption.Two classes of aerosol particles active as IFN by sorption werefound.The first produces IFN concentrations which are dependent on temperature only.The IFN concen-tration consecutively increases with lowering of temperature and does not respond to the increasing partialwater vapor pressure.The second produces IFN concentrations which are dependent on partial water vaporpressure only,The IFN concentration consecutively decreases with decreasing of the partial water vapor pres-sure that takes place with the lowering temperature.Sulfates(mostly ammonium sulfate)constitute an integral part of IFN active by condensation-followed-by-freezing and by sorption.Backward isentropic air parcel trajectories linked polluted air rich in sulfates andclean air with high and low concentrations of IFN active by condensation-followed-by-freezing at-19.7℃ andS_w=0.1%.The experiments were performed in a dynamic filter processing chamber with aerosol particles collectedon membrane filters.
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Citation
J. Rosinski, P. L. Haagenson, C. T. Nngamoto, G. Morgan. 1991: ON ICE FORMING NUCLEI. Journal of Meteorological Research, 5(4): 497-513.
J. Rosinski, P. L. Haagenson, C. T. Nngamoto, G. Morgan. 1991: ON ICE FORMING NUCLEI. Journal of Meteorological Research, 5(4): 497-513.
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J. Rosinski, P. L. Haagenson, C. T. Nngamoto, G. Morgan. 1991: ON ICE FORMING NUCLEI. Journal of Meteorological Research, 5(4): 497-513.
J. Rosinski, P. L. Haagenson, C. T. Nngamoto, G. Morgan. 1991: ON ICE FORMING NUCLEI. Journal of Meteorological Research, 5(4): 497-513.
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