High time-resolution measurements of HCl in marine and continental urban areas: Implications for the reactive chlorine budget

Literature Reference

Poster

Authors

Cora J. Young^a, Andrea A. Angeluccia ^a,TelesC. Furlania ^a, Alexander Moraveka ^a, Xuan Wang^b,c, Daniel Jacob^b, Rachel Y.-W. Chang^d, AldonaWiacek^e

Date

January 1st, 2019

Abstract

Atmospheric oxidation is dominated by the OH radical, although Cl atoms can play an important role under certain conditions. Gas-phase inorganic chlorine (Cl_y) controls the Cl budget. HCl dominates Cl_y[1]. Atmospheric sources and levels of HCl are poorly constrained. HCl is a sticky gas and is a challenge to measure with high time resolution. Most measurements have been made using time-integrated techniques, such as mist chambers(e.g.[2]). Some recent measurements made using chemical ionization mass spectrometry, although issues with calibration and inlet transmission are common(e.g.[1,3]). A recently-available cavity-ring down instrument generates reliable measurements of HCl at 0.5Hz. Spectroscopic technique eliminates most calibration issues, while specially designed instrument reduces surface effects.

^aDepartmentof Chemistry, York University, Toronto, Ontario, Canada;
^bSchoolof Engineering and Applied Sciences, Harvard University, Boston, Massachusetts, US;
^cSchoolof Energy and Environment, City University of Hong Kong, Hong Kong, China;
^dDepartmentof Physics and Atmospheric Science, Dalhousie University, Halifax, Nova Scotia, Canada;
^eDepartmentof Environmental Science, St. Mary’s University, Halifax, Nova Scotia, Canada