This study presents a chemical ionization mass spectrometer (CIMS) for fast response, in-situ measurements of gas phase ammonia (NH3). The NH3 background level detected with the CIMS ranged between 0.3ĝ€"1 ppbv, with an uncertainty of 30 pptv under optimized conditions. The instrument sensitivity varied from 4ĝ€"25 Hz/pptv for >1 MHz of reagent ion signals (protonated ethanol ions), with a 30% uncertainty estimated based on variability in calibration signals. The CIMS detection limit for NH3 was ∼60 pptv at a 1 min integration time (3 sigma). The CIMS time response was <30 s. This new NH3-CIMS has been used for ambient measurements in Kent, Ohio, for several weeks throughout three seasons. The measured NH3 mixing ratios were usually at the sub-ppbv level and higher in spring (200 ± 120 pptv) than in winter (60 ± 75 pptv) and fall (150 ± 80 pptv). High emissions of SO2 from power plants in this region, and thus possible high acidity of aerosol particles, may explain these low NH3 mixing ratios in general. ©Author(s) 2010. CC Attribution 3.0 License.
CITATION STYLE
Benson, D. R., Markovich, A., Al-Refai, M., & Lee, S. H. (2010). A chemical ionization mass spectrometer for ambient measurements of ammonia. Atmospheric Measurement Techniques, 3(4), 1075–1087. https://doi.org/10.5194/amt-3-1075-2010
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