Peer-Reviewed Journal Details
Mandatory Fields
Suhail, K;George, M;Chandran, S;Varma, R;Venables, DS;Wang, M;Chen, J
2019
February
Spectrochimica Acta. Part A, Molecular and Biomolecular Spectroscopy
Open path incoherent broadband cavity-enhanced measurements of NO3 radical and aerosol extinction in the North China Plain
Validated
WOS: 18 ()
Optional Fields
ATMOSPHERIC TRACE GASES RING-DOWN SPECTROSCOPY FREQUENCY COMB SPECTROSCOPY NOCTURNAL NITROGEN-OXIDES MARINE BOUNDARY-LAYER IN-SITU MEASUREMENTS ABSORPTION-SPECTROSCOPY RURAL SITE NIGHTTIME CHEMISTRY OXIDATION CAPACITY
208
24
31
We describe the observation of the NO3 radical using an incoherent broadband cavity-enhanced absorption spectrometer in an open-path configuration (OP-IBBCEAS) in a polluted summer environment in continental China. The instrument was installed 17 m above the ground at the top of a residential complex near the CAREBeijing-NCP 2014 site in Wangdu, Hebei province, about 200 km southwest of Beijing over the period 28 to 30 June 2014. The separation between the transmitter and receiver components of the instrument was 335 cm and the effective pathlength in clean reference air was similar to 3.4 km. NO3 was detected above the detection limit on all three nights when the instrument was operational. The maximum mixing ratio measured was similar to 175 pptv with a detection sensitivity of similar to 36 pptv for measurements with an average acquisition time of 10 min. While most extractive instruments try to avoid interferences arising from aerosol extinction, the open path configuration has advantages owing to its ability to detect trace gases even in the presence of aerosol loading. Moreover, concurrent retrieval of aerosol optical extinction is possible from analysis of the absorption magnitude of the oxygen B-band at 687 nm. The experimental setup, its calibration, data acquisition, and analysis procedure are discussed, and the results presented here demonstrate the sensitivity and specificity that can be achieved at high spatial and temporal resolution using the novel configuration of IBBCEAS in the open path. (C) 2018 The Authors. Published by Elsevier B.V.
OXFORD
1386-1425
10.1016/j.saa.2018.09.023
Grant Details