Monitoring of Airborne Organic Vapors Using Ion Mobility Spectrometry |
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| Authors: | G. A. Eiceman A. P. Snyder D. A. Blyth |
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| Affiliation: | 1. U.S. Army Chemical Research Development and Engineering Center , Aberdeen Proving Ground, MD , 21010-5423;2. Department of Chemistry , New Mexico State University , Las Cruces , NM , 88003;3. U.S. Army Chemical Research Development and Engineering Center , Aberdeen Proving Ground, MD , 21010-5423;4. GeoCenters, Inc , Fort Washington , MD , 20744;5. U.S. Army Chemical Research Development and Engineering Center, SMCCR-RSL , Aberdeen Proving Ground, MD , 21010-5423 |
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| Abstract: | ![]()
Abstract Automated, continuous monitoring of organic vapors in air under three field designs for plume drift was demonstrated using a hand-held ion mobility spectrometer (IMS) in characterizing IMS behavior as a point sensor. In one field study, the IMS was placed 50cm from a 9m2 grass plot contaminated with methylsalicylate and response to airborne vapors was recorded during a 13hr period of atmospheric turbulence to illustrate susceptibility of point sensors to wind direction. A similar study under near-quiescent atmospheric conditions was made using dimethylsulfoxide. In a third study, the plume from a point source of dipropyleneglycolmonomethylether was interrogated over a 25m × 12m grid downwind with windspeeds of 6–18km h?. Laboratory studies were used to measure instrumental response times and influences from potentially interfering atmospheric organic pollutants. |
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| Keywords: | Air monitoring organic vapors ion mobility spectrometry |
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