The interaction of N2O5 with mineral dust: aerosol flow tube and Knudsen reactor studies

The interaction of mineral dust with N2O5 was investigated using both airborne mineral aerosol (using an aerosol flow reactor with variable relative humidity) and bulk samples (using a Knudsen reactor at zero humidity). Both authentic (Saharan, SDCV) and synthetic dust samples (Arizona test dust, AT...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2008-01, Vol.8 (1), p.91-109
Main Authors: Wagner, C., Hanisch, F., Holmes, N., de Coninck, H., Schuster, G., Crowley, J. N.
Format: Article
Language:English
Subjects:
Ocean, Atmosphere
Sciences of the Universe
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Summary:The interaction of mineral dust with N2O5 was investigated using both airborne mineral aerosol (using an aerosol flow reactor with variable relative humidity) and bulk samples (using a Knudsen reactor at zero humidity). Both authentic (Saharan, SDCV) and synthetic dust samples (Arizona test dust, ATD and calcite, CaCO3) were used to derive reactive uptake coefficients (?). The aerosol experiments (Saharan dust only) indicated efficient uptake, with e.g. a value of ?(SDCV)=(1.3±0.2)×10?2 obtained at zero relative humidity. The values of ? obtained for bulk substrates in the Knudsen reactor studies are upper limits due to assumptions of available surface area, but were in reasonable agreement with the AFT measurements, with: ?(SDCV)=(3.7±1.2)×10?2, ?(ATD)=(2.2±0.8)×10?2 and ?(CaCO3=(5±2)×10?2. The errors quoted are statistical only. The results are compared to literature values and assessed in terms of their impact on atmospheric N2O5.
ISSN:1680-7316
1680-7324
DOI:10.5194/acp-8-91-2008