Monitoring personal fine particle exposure with a particle counter

Brauer, Michael; Hirtle, Robert; Hall, Andrew C.; Yip, Todd R

doi:10.1038/sj.jea.7500040

Cited by 37 publications

(27 citation statements)

References 13 publications

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“…Figure 4 indicates that the PEM/SIM ratio increases with increasing particle size during periods of human activity, ranging from near 1 for the 0.3-0.5 mm size fraction to more than 2 for the 45 mm size fraction. The results agree with findings by Brauer et al (1999), who measured personal and area counts using light scattering particle counters for a subject walking about a small dormitory room. They found PEM/SIM ratios of approximately 1.1 for the 0.3-1.0 mm size range, 1.3 for the 1.0-5 mm size range, and 1.8 for the greater than 5 mm size range.…”

Section: Personal Cloud Observationssupporting

confidence: 90%

“…Unlike the present study, the PTEAM subjects performed normal nonscripted human activities and were not necessarily at home or in the same room as the PEM during the monitoring period. As discussed previously, Brauer et al (1999) reported PEM/SIM ratios for a subject walking for four 15-min activity periods that ranged from approximately 1.1 for the o1 mm size range to 1.8 for the 45 mm size range.…”

Section: Discussionmentioning

confidence: 56%

“…These studies found that walking, dusting, vacuuming, and general cleaning dramatically increased indoor concentrations of PM greater than 1 mm. Brauer et al (1999) measured personal exposure directly for a subject walking about a small dormitory room and found that the personal cloud was more pronounced when the subject was walking about than when the subject was sedentary. Ferro et al (1999) found that pushing a vacuum cleaner, with the vacuum cleaner on or off, increased human exposure to coarse PM by approximately 20 times as compared with background concentrations.…”

Section: Introductionmentioning

confidence: 99%

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Elevated personal exposure to particulate matter from human activities in a residence

Ferro

Kopperud

Hildemann

2004

J Expo Sci Environ Epidemiol

150

118

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Continuous laser particle counters collocated with time-integrated filter samplers were used to measure personal, indoor, and outdoor particulate matter (PM) concentrations for a variety of prescribed human activities during a 5-day experimental period in a home in Redwood City, CA, USA. The mean daytime personal exposures to PM 2.5 and PM 5 during prescribed activities were 6 and 17 times, respectively, as high as the pre-activity indoor background concentration. Activities that resulted in the highest exposures of PM 2.5 , PM 5 , and PM 10 were those that disturbed dust reservoirs on furniture and textiles, such as dry dusting, folding clothes and blankets, and making a bed. The vigor of activity and type of flooring were also important factors for dust resuspension. Personal exposures to PM 2.5 and PM 5 were 1.4 and 1.6 times, respectively, as high as the indoor concentration as measured by a stationary monitor. The ratio of personal exposure to the indoor concentration was a function of both particle size and the distance of the human activity from the stationary indoor monitor. The results demonstrate that a wide variety of indoor human resuspension activities increase human exposure to PM and contribute to the ''personal cloud'' effect.

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Section: Personal Cloud Observationssupporting

confidence: 90%

Section: Discussionmentioning

confidence: 56%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Elevated personal exposure to particulate matter from human activities in a residence

Ferro

Kopperud

Hildemann

2004

J Expo Sci Environ Epidemiol

150

118

View full text Add to dashboard Cite

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“…Although these data can assist in preliminary source attribution (Brauer et al, 1999;Levy et al, 2000), only one instrument was available at the time of the study and therefore it was not possible to perform a complete indoor -outdoor analysis with the APC -1000. Standard environmental parameters (carbon dioxide, temperature, and relative humidity) were measured using a TSI Q -Trak Model 8551.…”

Section: Methodsmentioning

confidence: 99%

“…Although nonresidential microenvironmental studies have been conducted in the past ( e.g., Brauer et al, 1999;Levy et al, 2000 ), they have generally been based on a small number of measurements. This makes it difficult to discern whether microenvironmental concentration patterns are functions of inherent characteristics of the microenvironments or temporal /spatial variability in outdoor concentrations and meteorological conditions in the region.…”

Section: Introductionmentioning

confidence: 99%

Particulate matter and polycyclic aromatic hydrocarbon concentrations in indoor and outdoor microenvironments in Boston, Massachusetts

Levy

Dumyahn

Spengler

2002

J Expo Sci Environ Epidemiol

116

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Estimating personal exposures to air pollution is a crucial component in identifying high -risk populations and determining efficient control strategies. Because of the difficulty of comprehensively measuring personal exposure, data on air pollution patterns in homogenous microenvironments linked with activity data are often used as surrogates. In this study, we focus on strengthening the available information about nonresidential microenvironmental exposures to particulate matter and other combustion pollutants. During the summer of 2000, we measured ultrafine particles, fine particulate matter ( PM 2.5 ), and particlebound polycyclic aromatic hydrocarbons ( PAHs ) outdoors and in indoor microenvironments in Boston, Massachusetts. In indoor microenvironments averaged across sample days, mean ultrafine particle concentrations ranged from 3800 to 140,000 particles / cm 3 , with 7 -200 g / m 3 of PM 2.5 and 5 -12 ng / m 3 of particle -bound PAH. PM 2.5 indoor -outdoor ratios generally exceeded 1 in settings with high levels of human activity, with lower ratios for ultrafine particles. Cooking activities contributed significantly to elevated levels of all three pollutants. Using Linear Mixed Effects models with AR -1 autoregressive correlation structures, 10 -min average outdoor concentrations were generally weak predictors of indoor levels, with stronger relationships in an apartment without mechanical ventilation than in air -conditioned nonresidential settings. Although further study would be needed to determine whether these patterns could be generalized beyond the monitored sites, these data support previous findings and enhance our knowledge about nonresidential exposure patterns.

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Monitoring of 1-Min Personal Particulate Matter Exposures in Relation to Voice-Recorded Time–Activity Data

Quintana

Valenzia

Delfino

et al. 2001

Environmental Research

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Monitoring personal fine particle exposure with a particle counter

Cited by 37 publications

References 13 publications

Elevated personal exposure to particulate matter from human activities in a residence

Elevated personal exposure to particulate matter from human activities in a residence

Particulate matter and polycyclic aromatic hydrocarbon concentrations in indoor and outdoor microenvironments in Boston, Massachusetts

Monitoring of 1-Min Personal Particulate Matter Exposures in Relation to Voice-Recorded Time–Activity Data

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