Design and validation of a high-flow personal sampler for PM2.5
Autor: | Lee Kenny, Roy N. Colvile, Robert A. Gussman, Helen S Adams, Mark J. Nieuwenhuijsen |
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Rok vydání: | 2001 |
Předmět: |
Air Movements
Manufactured Materials Epidemiology Public Health Environmental and Occupational Health Environmental Exposure Equipment Design Particulates Toxicology Sensitivity and Specificity Pollution Ventilation Volumetric flow rate Car drivers Air Pollution Humans Environmental science Hydraulic diameter Particle Size Porosity Marine engineering |
Zdroj: | Journal of Exposure Science & Environmental Epidemiology. 11:5-11 |
ISSN: | 1559-064X 1559-0631 |
Popis: | A high-flow personal sampler (HFPS) for airborne particulate matter has been developed and fully characterised, and validation tests have been carried out. The sampler is a low-cost gravimetric instrument designed to collect particulate matter with a 50% cut point at 2.5 microm aerodynamic equivalent diameter (PM2.5), where size selection is achieved by the use of porous polyurethane foam. Development of a porous foam selector was chosen over a cyclone or impactor due to the lightweight, low-cost, and compact design that could be achieved. The sampler flow rate of 16 1/min is achieved using a portable, flow-controlled pump; this flow rate is far higher than that of conventional personal samplers and the HFPS can therefore be used for personal sampling in the ambient environment over short sampling periods of much less than 24 h. The HFPS is currently being used in a study of particle exposure of urban transport users (cyclists, car drivers, bus and Underground rail passengers) where personal sampling over short time periods representing typical commuter journey times is required. The HFPS was fully characterised in chamber studies with a TSI aerodynamic particle sizer (APS). The sampler was then validated against a co-located U.S. EPA Federal Reference PM2.5 Well Impactor Ninety Six (WINS) and a KTL cyclone, and parallel testing was performed. Initial testing showed some penetration of particles through the porous foam structure; applying an oil coating to the foam eliminated this problem. Chamber testing was carried out on a number of different selector prototypes, with the final design giving a 50% penetration diameter (i.e., d50) of 2.4 microm at 16 1/min. The new sampler exhibited good agreement in three sets of co-located tests with established samplers, and parallel testing showed excellent agreement between paired HFPS samplers. |
Databáze: | OpenAIRE |
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