Development of stripping coil-ion chromatograph method and intercomparison with CEAS and LOPAP to measure atmospheric HONO.

Abstract Nitrous acid (HONO) is the major precursor of OH radicals in polluted areas. Accurate measurement of HONO provides vital evidence for exploring the formation of secondary pollution. Stripping coil (SC) equipped with ion chromatograph (IC) or spectrograph as one of wet chemical methods has been already used to measure HONO. The reliability of the method mainly depends on the collection efficiency and the interference from other species. In this study, a SC-IC method was set up to measure HONO. The performance of the method was assessed in the chamber using two kinds of absorption solutions i.e. ultrapure water and 25 μM Na 2 CO 3 solution under different concentrations of SO 2 . Results indicated that HONO concentrations absorbed by ultrapure water and Na 2 CO 3 solution were almost identical in the absence of SO 2 in the chamber and both the collection efficiencies were >99%. However, the collection efficiency of ultrapure water decreased with the increase of SO 2 , indicating that the presence of SO 2 resulted in the penetration of HONO. The collection efficiency kept >90% when the concentration of SO 2 was no >23 ppbv. Comparing with the situation without SO 2 , HONO performed a remarkable increase with the presence of SO 2 when using Na 2 CO 3 absorption solution, indicating that the extra generation of HONO from the reaction between SO 2 and NO 2 in alkaline solution. Consequently, ultrapure water as the absorption solution could provide a high collection efficiency and avoid the interferences from SO 2 when the concentration of SO 2 was below 23 ppbv. High correlations (slope = 0.94–1.06, r 2  > 0.90) were found during the intercomparisons between SC-IC and other three techniques, suggesting the SC-IC method developed in this study was able to measure atmospheric HONO in the field campaigns.