Water uptake of clay and desert dust aerosol particles at sub- and supersaturated water vapor conditions

dc.contributor.authorHerich, Hanna
dc.contributor.authorTritscher, Torsten
dc.contributor.authorWiacek, Aldona
dc.contributor.authorGysel, Martin
dc.contributor.authorWeingartner, Ernest
dc.contributor.authorLohmann, Ulrike
dc.contributor.authorBaltensperger, Urs
dc.contributor.authorCziczo, Daniel J.
dc.date.accessioned2024-08-13T11:58:15Z
dc.date.available2024-08-13T11:58:15Z
dc.date.issued2009-04-01
dc.description.abstractAirborne mineral dust particles serve as cloud condensation nuclei (CCN), thereby influencing the formation and properties of warm clouds. It is therefore of atmospheric interest how dust aerosols with different mineralogy behave when exposed to high relative humidity (RH) or supersaturation (SS) with respect to liquid water. In this study the subsaturated hygroscopic growth and the supersaturated cloud condensation nucleus activity of pure clays and real desert dust aerosols were determined using a hygroscopicity tandem differential mobility analyzer (HTDMA) and a cloud condensation nuclei counter (CCNC), respectively. Five different illite, montmorillonite and kaolinite clay samples as well as three desert dust samples (Saharan dust (SD), Chinese dust (CD) and Arizona test dust (ATD)) were investigated. Aerosols were generated both with a wet and a dry disperser. The water uptake was parameterized via the hygroscopicity parameter k. The hygroscopicity of dry generated dust aerosols was found to be negligible when compared to processed atmospheric aerosols, with CCNC derived k values between 0.00 and 0.02 (the latter corresponds to a particle consisting of 96.7% by volume insoluble material and B3.3% ammonium sulfate). Pure clay aerosols were generally found to be less hygroscopic than natural desert dust particles. The illite and montmorillonite samples had k B 0.003. The kaolinite samples were less hygroscopic and had k = 0.001. SD (k = 0.023) was found to be the most hygroscopic dry-generated desert dust followed by CD (k = 0.007) and ATD (k = 0.003). Wet-generated dust showed an increased water uptake when compared to dry-generated samples. This is considered to be an artifact introduced by redistribution of soluble material between the particles. Thus, the generation method is critically important when presenting such data. These results indicate any atmospheric processing of a fresh mineral dust particle which leads to the addition of more than B3% soluble material will significantly enhance its hygroscopicity and CCN activity.
dc.identifier.doi10.1039/b901585j
dc.identifier.issn1463-9076
dc.identifier.issn1463-9084
dc.identifier.urihttps://irf.fhnw.ch/handle/11654/46669
dc.issue36
dc.language.isoen
dc.publisherRoyal Society of Chemistry
dc.relation.ispartofPhysical Chemistry Chemical Physics
dc.spatialLondon
dc.subject.ddc550 - Geowissenschaften
dc.titleWater uptake of clay and desert dust aerosol particles at sub- and supersaturated water vapor conditions
dc.type01A - Beitrag in wissenschaftlicher Zeitschrift
dc.volume11
dspace.entity.typePublication
fhnw.InventedHereNo
fhnw.ReviewTypeAnonymous ex ante peer review of a complete publication
fhnw.affiliation.hochschuleHochschule für Technik und Umwelt FHNWde_CH
fhnw.affiliation.institutlnstitut für Sensorik und Elektronikde_CH
fhnw.openAccessCategoryClosed
fhnw.pagination7804-7809
fhnw.publicationStatePublished
relation.isAuthorOfPublication54997bb8-cf4a-4120-b0c7-f8e731e8eea1
relation.isAuthorOfPublication05dd9a19-7a24-4325-805a-2d121483b168
relation.isAuthorOfPublication.latestForDiscovery05dd9a19-7a24-4325-805a-2d121483b168
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