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  • Exposure Assessment and Source Apportionment of Size Fractions of Airborne Particulate Matter

    Tue, Jan 13, 2009 @ 10:30 AM - 01:00 PM

    Sonny Astani Department of Civil and Environmental Engineering

    Conferences, Lectures, & Seminars


    Oral Defense by:Mohammad ArhamiSonny AstaniDepartment of Civil and Environmental EngineeringAdvisor: Prof. Constantinos SioutasAbstract
    The aim of this thesis is to enhance the knowledge on exposure to size fractions of airborne particulate matter and their components and to find more intensive information on sources of indoor and outdoor size fractionated particles. In the first part of the study, the physical and chemical characteristics of indoor, outdoor, and personal quasi-ultrafine (In the following, we characterized the physicochemical properties and sources of size fractionated PM and their spatial and seasonal variability at the Los Angeles-Long Beach harbor community, which is the busiest harbor in the US and the fifth in the world. The major mass contributions in the quasi-UF fraction were particulate organic matter, non-sea salt sulfate and elemental carbon; in the accumulation mode fraction were non-sea salt sulfate, sea salt, particulate organic matter and nitrate; and in the coarse fraction were sea salt and insoluble soil. In general, PM and its components in accumulation mode showed relatively lower spatial variability compare to the quasi-UF and the coarse modes. The vehicular sources accounted for almost all of quasi-ultrafine PM and more than 50% fine PM, whereas ship contribution was lower than 5% of total PM mass. Our results clearly indicate that, although ship emissions can be significant, PM emissions in the area of the largest US harbor are dominated by vehicular sources. The results obtained in this study have been/will be used to examine the relationships between outdoor (or ambient), indoor and personal measurements of atmospheric particulate air pollution and health outcomes and to link health effects to certain sources of particulate matter. Such information would be highly valuable for targeting control strategies that protect human health and life.

    Location: Kaprielian Hall (KAP) - 209

    Audiences: Everyone Is Invited

    Contact: Evangeline Reyes

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