Fast‐response airborne in situ measurements of HNO3 during the Texas 2000 Air Quality Study

Abstract

Nitric acid (HNO₃) was measured from an aircraft in the planetary boundary layer and free troposphere up to 7 km on 14 flights during the Texas Air Quality Study in August and September 2000. HNO₃ mixing ratios were measured at 1 Hz using a fast‐response chemical ionization mass spectrometer with SiF₅⁻ reagent ions. HNO₃ measurement using this highly selective ion chemistry is insensitive to water vapor and is not degraded by interferences from other species. Rapid time response (1 s) was achieved using a heated Teflon inlet. In‐flight standard addition calibrations from a HNO₃ permeation source were used to determine the instrument sensitivity of 1.1 ± 0.1 ion counts pptv⁻¹ s⁻¹ over the duration of the study. Contributions to the HNO₃ signal from instrument artifacts were accounted for by regularly performing in‐flight instrument background checks, where HNO₃ was removed from the ambient air sample by diverting the sampled air though a nylon wool scrubber. Measurement inaccuracy, which is determined from uncertainties in the standard addition calibrations, was ±10%. Measurement precision at low HNO₃ levels was ±25 pptv (1σ) for the 1 Hz data and ±9 pptv for 10 s averages of the 1 s measurements. Coincident in situ measurements of other reactive nitrogen species are used to examine NO_y partitioning and HNO₃ formation during this month long measurement campaign. The sum of the individually measured reactive nitrogen species is shown to be in agreement with the measured NO_y. HNO₃ formation in plumes from electric utility power plants, urban areas, and petrochemical facilities was studied. The observed differences in the fractional contribution of HNO₃ to NO_y in plumes from different anthropogenic source types are discussed.