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Journal Article

Citation

Todd P, Sklar V, Ramirez WF, Smith GJ, Morgenthaler GW, McKinnon JT, Oberdörster G, Schulz J. Acta Astronaut. 1994; 33: 305-315.

Affiliation

U Rochester, NY

Copyright

(Copyright © 1994, Elsevier Publishing)

DOI

unavailable

PMID

11539534

Abstract

Inhalation risks on long-duration manned spaced flight include gasses chronically released by outgassing of materials, gasses released during spills, thermodegradation events (including fires) with their attendant particulates, and fire extinguishment. As an example, an event in which electronic insulation consisting of polytetrafluoroethylene undergoes thermodegradation on the Space Station Freedom was modeled experimentally and theoretically from the initial chemistry and convective transport through pulmonary deposition in humans. The low-gravity environment was found to impact various stages of event simulation. Critical unknowns were identified, and these include the extent of production of ultrafine particles and polymeric products at the source in low gravity, the transport of ultrafine particles in the spacecraft air quality control system, and the biological response of the lung, including alveolar macrophages, to this inhalation risk in low gravity.


Language: en

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