Chamber measurements of Cl depletion in cloud-processed sea-salt aerosol

Cl(-) depletion in sea-salt CCN was measured in chamber experiments after cloud formation in the presence of SO2 and O3. In each experiment, two successive clouds were formed on a sea-salt aerosol generated from the nebulization of filtered seawater, while chamber SO2 (g) and O3 (g) concentrations r...

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Veröffentlicht in:	Journal of Geophysical Research. D. Atmospheres 2001-11, Vol.106 (D21), p.27
Hauptverfasser:	Caffrey, P, Hoppel, W, Frick, G, Fitzgerald, J, Shantz, N, Leaitch, W R, Pasternack, L, Albrechcinski, T, Ambrusko, J
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creator	Caffrey, P Hoppel, W Frick, G Fitzgerald, J Shantz, N Leaitch, W R Pasternack, L Albrechcinski, T Ambrusko, J
description	Cl(-) depletion in sea-salt CCN was measured in chamber experiments after cloud formation in the presence of SO2 and O3. In each experiment, two successive clouds were formed on a sea-salt aerosol generated from the nebulization of filtered seawater, while chamber SO2 (g) and O3 (g) concentrations ranged from 4.8-8.3 ppb and 69-75 ppb. Particle growth from cloud processing reactions was measured with a differential mobility analyzer (DMA) immediately after cloud dissipation, and particles activated from dry radii of 0.02-0.03 micron showed growth to 0.08 and 0.12 micron, with total aerosol mass increases of 7.0 and 2.4 micro-g/cu m (assuming a particle density of 2.4 g/cu cm). Particle growth was greater than that predicted by standard SO2-O3 oxidation kinetics and cannot be accounted for by the buffering capacity of the sea-salt CCN. Micro-orifice impactor (MOI) measurements of inorganic ions in the postcloud aerosol size distributions show, within analytical error, a 1:1 displacement of Cl(-) with nss - SO4(2-), until the SO4(2-) is in excess and the Cl(-) is completely depleted at the smaller CCN sizes. Calculations of Cl(-) depletion, based upon the input size distribution and assuming particle growth via sulfate addition, show greater Cl(-) depletion on smaller size particles than the measured values. However, there is agreement within the uncertainty of the measured values. (Author)
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In each experiment, two successive clouds were formed on a sea-salt aerosol generated from the nebulization of filtered seawater, while chamber SO2 (g) and O3 (g) concentrations ranged from 4.8-8.3 ppb and 69-75 ppb. Particle growth from cloud processing reactions was measured with a differential mobility analyzer (DMA) immediately after cloud dissipation, and particles activated from dry radii of 0.02-0.03 micron showed growth to 0.08 and 0.12 micron, with total aerosol mass increases of 7.0 and 2.4 micro-g/cu m (assuming a particle density of 2.4 g/cu cm). Particle growth was greater than that predicted by standard SO2-O3 oxidation kinetics and cannot be accounted for by the buffering capacity of the sea-salt CCN. Micro-orifice impactor (MOI) measurements of inorganic ions in the postcloud aerosol size distributions show, within analytical error, a 1:1 displacement of Cl(-) with nss - SO4(2-), until the SO4(2-) is in excess and the Cl(-) is completely depleted at the smaller CCN sizes. Calculations of Cl(-) depletion, based upon the input size distribution and assuming particle growth via sulfate addition, show greater Cl(-) depletion on smaller size particles than the measured values. However, there is agreement within the uncertainty of the measured values. (Author)</description><identifier>ISSN: 0148-0227</identifier><language>eng</language><ispartof>Journal of Geophysical Research. D. 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Micro-orifice impactor (MOI) measurements of inorganic ions in the postcloud aerosol size distributions show, within analytical error, a 1:1 displacement of Cl(-) with nss - SO4(2-), until the SO4(2-) is in excess and the Cl(-) is completely depleted at the smaller CCN sizes. Calculations of Cl(-) depletion, based upon the input size distribution and assuming particle growth via sulfate addition, show greater Cl(-) depletion on smaller size particles than the measured values. However, there is agreement within the uncertainty of the measured values. 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D. Atmospheres</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Caffrey, P</au><au>Hoppel, W</au><au>Frick, G</au><au>Fitzgerald, J</au><au>Shantz, N</au><au>Leaitch, W R</au><au>Pasternack, L</au><au>Albrechcinski, T</au><au>Ambrusko, J</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Chamber measurements of Cl depletion in cloud-processed sea-salt aerosol</atitle><jtitle>Journal of Geophysical Research. D. Atmospheres</jtitle><date>2001-11-16</date><risdate>2001</risdate><volume>106</volume><issue>D21</issue><spage>27</spage><pages>27-</pages><issn>0148-0227</issn><abstract>Cl(-) depletion in sea-salt CCN was measured in chamber experiments after cloud formation in the presence of SO2 and O3. 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Micro-orifice impactor (MOI) measurements of inorganic ions in the postcloud aerosol size distributions show, within analytical error, a 1:1 displacement of Cl(-) with nss - SO4(2-), until the SO4(2-) is in excess and the Cl(-) is completely depleted at the smaller CCN sizes. Calculations of Cl(-) depletion, based upon the input size distribution and assuming particle growth via sulfate addition, show greater Cl(-) depletion on smaller size particles than the measured values. However, there is agreement within the uncertainty of the measured values. (Author)</abstract></addata></record>
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title	Chamber measurements of Cl depletion in cloud-processed sea-salt aerosol
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