A Cost-Effective Weighing Chamber for Particulate Matter Filters |
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Authors: | Ryan Allen Michael Box Lee-Jane Sally Liu Timothy V. Larson |
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Affiliation: | 1. Department of Environmental Health , University of Washington , Seattle , USA allenrw@u.washington.edu;3. Department of Environmental Health , University of Washington , Seattle , USA;4. Department of Civil and Environmental Engineering , University of Washington , Seattle , USA |
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Abstract: | ABSTRACT Particulate matter (PM) is a ubiquitous air pollutant that has been receiving increasing attention in recent years due in part to the association between PM and a number of adverse health outcomes, including mortality and increases in emergency room visits and respiratory symptoms, as well as exacerbation of asthma and decrements in lung function.1-5 As a result, the ability to accurately sample ambient PM has become important, both to researchers and to regulatory agencies. The federal reference method for the determination of fine PM as PM2.5 in the atmosphere recommends that particle-sampling filters be conditioned and weighed in an environment with constant temperature and relative humidity (RH).6 It is also recommended that vibration, electrostatic charges, and contamination of the filters from laboratory air be minimized to reduce variability in filter weight measurements. These controls have typically been maintained in small, environmentally controlled “cleanrooms.” As an alternative to constructing an elaborate cleanroom, we have designed, and presented in this paper, an inexpensive weighing chamber to maintain the necessary level of humidity control. |
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