Received: June 21, 2000

In Final Form: April 18, 2001

Abstract:

The heterogeneous reactivity of gaseous nitric acid on -Al₂O₃, -Fe₂O₃, SiO₂, MgO, and CaO, as well as authentic samples of Gobi dust and Saharan sand, was investigated at 295 K using a Knudsen cell reactor. Through total uptake calculations and mass dependent studies, nitric-acid diffusion into the underlying layers is shown to be an important process for all of the systems studied. As such, models that account for the increased surface area and the concomitant increase in "internal collisions" were used to calculate uptake coefficients. The initial uptake coefficients for -Al₂O₃, -Fe₂O₃, SiO₂, MgO, and CaO all lie in the 10^-5 to 10^-3 region at gas concentrations between 10¹¹ and 10¹² molecules/cm³. As expected, on the basis of their high SiO₂ composition, the measured initial uptake coefficients for the authentic dust samples are close to the value found for SiO₂ and are between 2 and 6 × 10^-5. Uptake of nitric acid on most of the oxide particles and the authentic dust samples results in irreversible adsorption. The effect of surface adsorbed water on both CaO and Gobi dust was investigated and is found to significantly enhance the initial uptake coefficient. Atmospheric implications of these results in terms of the importance of heterogeneous reactions of nitric acid on mineral aerosol are discussed.

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