| Autor: |
Liljegren, James C., Brown, David F., Lunden, Melissa M., Silcott, David |
| Předmět: |
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| Zdroj: |
Health Security; Jul/Aug2016, Vol. 14 Issue 4, p237-249, 13p |
| Abstrakt: |
Following the release of an aerosolized biological agent in a transit venue, material deposited on waiting passengers and subsequently shed from their clothing may significantly magnify the scope and consequences of such an attack. Published estimates of the relevant particle deposition and resuspension parameters for complex indoor environments such as a transit facility are nonexistent. In this study, measurements of particle deposition velocity onto cotton fabric samples affixed to stationary and walking people in a large multimodal transit facility were obtained for tracer particle releases carried out as part of a larger study of subway airflows and particulate transport. Deposition velocities onto cotton and wool were also obtained using a novel automated sampling mechanism deployed at locations in the transit facility and throughout the subway. The data revealed higher deposition velocities than have been previously reported for people exposed in test chambers or office environments. The relatively high rates of deposition onto people in a transit venue obtained in this study suggest it is possible that fomite transport by subway and commuter/regional rail passengers could present a significant mechanism for rapidly dispersing a biological agent throughout a metropolitan area and beyond. Following the release of an aerosolized biological agent in a transit venue, material deposited on waiting passengers and subsequently shed from their clothing may significantly magnify the scope and consequences of such an attack. In this study, measurements of particle deposition velocity onto cotton fabric samples affixed to stationary and walking people in a large transit facility were obtained. The data revealed higher deposition velocities than have been previously reported for people exposed in test chambers or office environments, suggesting it is possible that fomite transport by subway and rail passengers could present a significant mechanism for rapidly dispersing a biological agent throughout a metropolitan area and beyond. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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