1. Robust Hybrid Flow Analyzer for Formaldehyde.
- Author
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In-Yong Eom, Qingyang Li, Jianzhong Li, and Dasgupta, Purnendu K.
- Subjects
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FORMALDEHYDE , *DISINFECTION & disinfectants , *ELECTROSTATIC analyzers , *ELECTRIC power failures , *SYRINGES , *COMPUTER simulation , *EXPERIMENTAL design , *CITIES & towns - Abstract
We report fully automated self-calibrating formaldehyde analyzers relying on a hybrid flow format and include operational scheme and design details. Long-term operation is made possible with the use of syringe pumps. Four identical analyzers were built and showed low LODs of 120 pptv or better (S/N =3) and good linearity over 0-50 ppbv HCHO concentration range (r2 > 0.9960), all concentrations refer to 10 min averaging times. The analyzer can resume normal operation after short-term power failure with at most two cycles of data loss following restart. Good agreement between analyzers was observed for either indoor or outdoor measurements. The use of an integrated HCHO calibration source and full control by the host computer via a graphical user interlace program enables the instrument to switch between zero, calibration, and sampling modes in a programmed automated manner. Detailed field data from deployment in three urban Texas locations from the summer of 2006 are presented. Features of the data, including an episode in which the HCHO concentration exceeded 50 ppbv, the highest reported ambient HCHO concentration in North America to our knowledge, are discussed in some detail. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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