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Determining the relationship between chemical composition and size, shape and effective density of airborne fine particles through concurrent use of inertial and optical based measurements 被引量:1
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作者 Anand Kumar Tarun Gupta 《Particuology》 SCIE EI CAS CSCD 2016年第5期93-101,共9页
This study presents the development of a medium flow, multiple slit based PM2.5 (particle aerodynamic diameter 〈2.5 μm) inertial impactor. Its performance was compared with that of a light scattering based optical... This study presents the development of a medium flow, multiple slit based PM2.5 (particle aerodynamic diameter 〈2.5 μm) inertial impactor. Its performance was compared with that of a light scattering based optical particle sizer in a field study and in controlled lab based experiments using polydisperse dolomite powder as test aerosol. The impactor's optimum nozzle configuration had a cutoff size of 2.51 μm (aero- dynamic diameter) at an operating flow rate of 215 L/rain with a pressure drop of 0.35 kPa across the impactor stage. Because the apparent particle density of an ambient aerosol depends on the physical properties and the chemical composition of the particles, the PM2.5 mass concentration was measured with an optical particle sizer and an inertial impactor over a weekday and a weekend day in a field study during which the effective particle shape factor and density were in tandem modified in order to com- pare the results from the two sampling techniques. The correlation of the two instrument results tended towards 1:1 with increasing values of shape factor (irregular shaped) and effective particle density. This observation was supported through chemical investigations of the collected mass, which showed a higher percentage contribution from elements which are mostly of crustal nature (namely, Ca, Fe, and Mg). 展开更多
关键词 lmpactor PM2.5 Optical particle counter Effective particle density Shape factor
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