Thermal and Hygroscopic Properties of Indoor Particulate Matter Collected on an Underground Subway Platform

Abstract

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In order to clarify the thermal and hygroscopic properties of indoor particulate matter (PM) in a semi-closed subway space, which is critically important for understanding of the distinctive particle formation processes as well as the assessment of their health effects, the size-resolved PMs (i.e., PM2.5 and PM10-2.5) were intensively collected on the platform of Miasageori station on the Seoul Subway Line-4. The elemental concentrations in soluble and insoluble fractions were determined by PIXE from the bulkily pretreated PM2.5. The thermal and hygroscopic characteristics of individual particles were investigated via a combination of the unique pretreatment techniques (i.e., the high-temperature rapid thermal process and the water dialysis) and SEM-EDX analysis. Iron and calcium were unequaled in insoluble and soluble PM2.5 fractions, respectively, with overwhelming concentration. The SEM-EDX’s elemental net-counts for the pre- and post-pyrolyzed PMs newly suggest that magnesium and several elements (i.e., silica, aluminum, and calcium) may be readily involved in the newly generated subway fine PM by a high-temperature thermal processing when trains are breaking and starting. Through the water dialysis technique, it turned out that calcium has meaningful amount of water soluble fraction. Furthermore, the concentrations of the counter-ions associated with the calcium in subway PM10-2.5 were theoretically estimated.

Keywords

• particulate matter
• subway
• individual particle
• water solubility
• dialysis
• thermal property