期刊
JOURNAL OF AEROSOL SCIENCE
卷 37, 期 12, 页码 1737-1749出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.jaerosci.2006.08.007
关键词
iodine oxide; coagulation; fractal; density; kernel enhancement
The kinetics of iodine oxide aerosol production and growth was studied in an aerosol flow reactor by the photolysis of 12 in an excess of O-3, at a temperature of 295 K and a total pressure of 1 atm. The time-resolved evolution of the particle size distribution was fitted using a model which assumes that the initial period of particle growth (in the free molecular flow regime) is dominated by collision-coalescence, maintaining spherical shape and compact structure. This leads to the formation of primary particles of about 3 nm radius, which trigger fractal (agglomerative) growth in the transition regime resulting in particle aggregates characterised by lower mass fractal dimensions (D-f) in the range 2.2-2.5. Enhancement of the particle pair collision kernels due to competing van der Waals and hydrodynamic forces is treated within the model. The densities of the fractal aggregates are lower than that of the bulk material, recently identified as I2O5 [Saunders, R. W., & Plane, J. M. C. (2005). Formation pathways and composition of iodine oxide ultratime particles. Environmental Chemistry, 2, 299], as a result of internal void space within the aggregate structures. (c) 2006 Elsevier Ltd. All rights reserved.
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