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Reactive uptake of ozone on mineral oxides and mineral dusts
AbstractA Knudsen cell apparatus was used to measure the heterogeneous reactive uptake of ozone on mineral oxide powders at 296K. Commercially available powders including α-Al2O3, α-Fe2O3, SiO2 and kaolinite were investigated as well as two different authentic mineral dusts, China loess and Saharan sand. Initial reactive uptake coefficients, γo,BET, for the purchased powders were measured as 1.2±0.4×10−4 for α-Al2O3, 2.0±0.3×10−4 for α-Fe2O3, 6.3±0.9×10−5 for SiO2 and 3±1×10−5 for kaolinite. Authentic dust samples were found to have γο,BET values of 2.7±0.8×10−5 for China loess and 6±2×10−5 for ground Saharan sand. Pressure dependence studies of this reaction on α-Al2O3 and α-Fe2O3 suggest that the initial uptake of ozone on these mineral oxides is a first-order process. Furthermore, under conditions of this study, these powders exhibit catalytic behavior toward the decomposition of ozone, and have turnover rates greater than one. Additionally, the reactive uptake of ozone on α-Al2O3 showed a small temperature dependence over a range of temperatures from 250 to 330K, consistent with reports of low energies of activation (∼5–10kJmol−1) for ozone destruction on oxide powders.
Reactive uptake of ozone on mineral oxides and mineral dusts
AbstractA Knudsen cell apparatus was used to measure the heterogeneous reactive uptake of ozone on mineral oxide powders at 296K. Commercially available powders including α-Al2O3, α-Fe2O3, SiO2 and kaolinite were investigated as well as two different authentic mineral dusts, China loess and Saharan sand. Initial reactive uptake coefficients, γo,BET, for the purchased powders were measured as 1.2±0.4×10−4 for α-Al2O3, 2.0±0.3×10−4 for α-Fe2O3, 6.3±0.9×10−5 for SiO2 and 3±1×10−5 for kaolinite. Authentic dust samples were found to have γο,BET values of 2.7±0.8×10−5 for China loess and 6±2×10−5 for ground Saharan sand. Pressure dependence studies of this reaction on α-Al2O3 and α-Fe2O3 suggest that the initial uptake of ozone on these mineral oxides is a first-order process. Furthermore, under conditions of this study, these powders exhibit catalytic behavior toward the decomposition of ozone, and have turnover rates greater than one. Additionally, the reactive uptake of ozone on α-Al2O3 showed a small temperature dependence over a range of temperatures from 250 to 330K, consistent with reports of low energies of activation (∼5–10kJmol−1) for ozone destruction on oxide powders.
Reactive uptake of ozone on mineral oxides and mineral dusts
Michel, A.E. (author) / Usher, C.R. (author) / Grassian, V.H. (author)
Atmospheric Environment ; 37 ; 3201-3211
2003-04-21
11 pages
Article (Journal)
Electronic Resource
English
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