Development and Application of Protocols for the Determination of Response of Real-Time Particle Monitors to Common Indoor Aerosols |
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| Authors: | Roger A Jenkins Ralph H Ilgner Bruce A Tomkins Douglas W Peters |
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| Institution: | 1. Environmental Chemistry and Mass Spectrometry Group, Chemical Sciences Division , Oak Ridge National Laboratory , Oak Ridge , Tennessee , USA jenkinsra@ornl.gov;3. Environmental Chemistry and Mass Spectrometry Group, Chemical Sciences Division , Oak Ridge National Laboratory , Oak Ridge , Tennessee , USA;4. Environmental Health Management , Louisville , Kentucky , USA |
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| Abstract: | Abstract Protocols have been developed and applied for the generation of aerosols that are likely to be comparable to those encountered in field settings for the calibration of easily transportable/portable real-time particle monitors. Aerosols generated were simulated environmental tobacco smoke, cedar wood smoke, cooking oil fumes, and propane stove particles. The time-integrated responses of three nephelometers and a monitor for particle-bound polynuclear aromatic hydrocarbons (PAH) were compared with gravimetric respirable suspended particulate matter (RSP) in a controlled-atmosphere chamber. In general, the monitor responses increased linearly with increasing mass concentration. However, the two monitors that reported mass per volume concentrations tended to overreport the actual RSP concentrations by factors up to 4.4. The real-time PAH monitor did not respond to cooking oil fumes, indicative of little PAH being present in the aerosol. One of the monitors that has been used in a variety of studies reported in the literature (DustTrak) was collocated with gravimetric RSP samplers in several hospitality venues in the Louisville, KY, area. Field studies indicated that the units overreported actual RSP concentrations by factors of 2.6–3.1, depending on whether the sampling was conducted in the nonsmoking or smoking sections of the facilities. |
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