In situ measurement of N2O5 in the urban atmosphere by thermal decomposition/laser-induced fluorescence technique

Jun Matsumoto; Hidekazu Imai; Naohiro Kosugi; Yoshizumi Kajii

doi:10.1016/j.atmosenv.2005.07.055

In situ measurement of N₂O₅ in the urban atmosphere by thermal decomposition/laser-induced fluorescence technique

Jun Matsumoto^*, Hidekazu Imai, Naohiro Kosugi, Yoshizumi Kajii

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The laser-induced fluorescence (LIF) detector with a thermal converter has been developed for measuring atmospheric N₂O₅. The detection limit for N₂O₅ was 11 pptv for 10-min averaging (S/N=2, [NO₂]=0). The field measurements of N₂O ₅ were conducted in the urban atmosphere in winter. N ₂O₅ was successfully monitored during four nights. Typically, observed N₂O₅ level was in the range of 0-200 pptv. Note that N₂O₅ reached 800 pptv at one night, when NO_x level was extremely high and the temperature was low. After the data were selected by the stability of NO_x, N₂O ₅ chemistry was discussed for a representative case of the urban night. Observed trend of N₂O₅ was compared with the theoretically predicted one. The heterogeneous loss rate of N₂O ₅ on the aerosol surfaces was estimated as 5.2×10^-4 s^-1. Consequently, it was confirmed that N₂O₅ loss was critical for NO_x budget in the urban atmosphere in winter, in comparison with NO_x loss via NO₃. The LIF instrument proved to be useful for studying nocturnal chemistry of N₂O ₅ in the source region.

Original language	English
Pages (from-to)	6802-6811
Number of pages	10
Journal	Atmospheric Environment
Volume	39
Issue number	36
DOIs	https://doi.org/10.1016/j.atmosenv.2005.07.055
Publication status	Published - 2005 Nov
Externally published	Yes

Keywords

Dinitrogen pentoxide
Heterogeneous reaction
Laser-induced fluorescence
NO sink
Urban atmosphere

ASJC Scopus subject areas

Environmental Science(all)
Atmospheric Science

Access to Document

10.1016/j.atmosenv.2005.07.055

Cite this

@article{aeeedbeec2d14f0683882a72c3287dbf,

title = "In situ measurement of N2O5 in the urban atmosphere by thermal decomposition/laser-induced fluorescence technique",

abstract = "The laser-induced fluorescence (LIF) detector with a thermal converter has been developed for measuring atmospheric N2O5. The detection limit for N2O5 was 11 pptv for 10-min averaging (S/N=2, [NO2]=0). The field measurements of N2O 5 were conducted in the urban atmosphere in winter. N 2O5 was successfully monitored during four nights. Typically, observed N2O5 level was in the range of 0-200 pptv. Note that N2O5 reached 800 pptv at one night, when NOx level was extremely high and the temperature was low. After the data were selected by the stability of NOx, N2O 5 chemistry was discussed for a representative case of the urban night. Observed trend of N2O5 was compared with the theoretically predicted one. The heterogeneous loss rate of N2O 5 on the aerosol surfaces was estimated as 5.2×10-4 s-1. Consequently, it was confirmed that N2O5 loss was critical for NOx budget in the urban atmosphere in winter, in comparison with NOx loss via NO3. The LIF instrument proved to be useful for studying nocturnal chemistry of N2O 5 in the source region.",

keywords = "Dinitrogen pentoxide, Heterogeneous reaction, Laser-induced fluorescence, NO sink, Urban atmosphere",

author = "Jun Matsumoto and Hidekazu Imai and Naohiro Kosugi and Yoshizumi Kajii",

note = "Funding Information: The authors are grateful for Dr. S.S. Brown (NOAA-AL) for helpful advice on N 2 O 5 calibration. They also appreciate members of Tokyo Metropolitan University for their support during field observation. This study was supported by Core Research for Evolutional Science and Technology (CREST) of Japan Science and Technology Agency.",

year = "2005",

month = nov,

doi = "10.1016/j.atmosenv.2005.07.055",

language = "English",

volume = "39",

pages = "6802--6811",

journal = "Atmospheric Environment",

issn = "1352-2310",

publisher = "Elsevier Limited",

number = "36",

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TY - JOUR

T1 - In situ measurement of N2O5 in the urban atmosphere by thermal decomposition/laser-induced fluorescence technique

AU - Matsumoto, Jun

AU - Imai, Hidekazu

AU - Kosugi, Naohiro

AU - Kajii, Yoshizumi

N1 - Funding Information: The authors are grateful for Dr. S.S. Brown (NOAA-AL) for helpful advice on N 2 O 5 calibration. They also appreciate members of Tokyo Metropolitan University for their support during field observation. This study was supported by Core Research for Evolutional Science and Technology (CREST) of Japan Science and Technology Agency.

PY - 2005/11

Y1 - 2005/11

N2 - The laser-induced fluorescence (LIF) detector with a thermal converter has been developed for measuring atmospheric N2O5. The detection limit for N2O5 was 11 pptv for 10-min averaging (S/N=2, [NO2]=0). The field measurements of N2O 5 were conducted in the urban atmosphere in winter. N 2O5 was successfully monitored during four nights. Typically, observed N2O5 level was in the range of 0-200 pptv. Note that N2O5 reached 800 pptv at one night, when NOx level was extremely high and the temperature was low. After the data were selected by the stability of NOx, N2O 5 chemistry was discussed for a representative case of the urban night. Observed trend of N2O5 was compared with the theoretically predicted one. The heterogeneous loss rate of N2O 5 on the aerosol surfaces was estimated as 5.2×10-4 s-1. Consequently, it was confirmed that N2O5 loss was critical for NOx budget in the urban atmosphere in winter, in comparison with NOx loss via NO3. The LIF instrument proved to be useful for studying nocturnal chemistry of N2O 5 in the source region.

AB - The laser-induced fluorescence (LIF) detector with a thermal converter has been developed for measuring atmospheric N2O5. The detection limit for N2O5 was 11 pptv for 10-min averaging (S/N=2, [NO2]=0). The field measurements of N2O 5 were conducted in the urban atmosphere in winter. N 2O5 was successfully monitored during four nights. Typically, observed N2O5 level was in the range of 0-200 pptv. Note that N2O5 reached 800 pptv at one night, when NOx level was extremely high and the temperature was low. After the data were selected by the stability of NOx, N2O 5 chemistry was discussed for a representative case of the urban night. Observed trend of N2O5 was compared with the theoretically predicted one. The heterogeneous loss rate of N2O 5 on the aerosol surfaces was estimated as 5.2×10-4 s-1. Consequently, it was confirmed that N2O5 loss was critical for NOx budget in the urban atmosphere in winter, in comparison with NOx loss via NO3. The LIF instrument proved to be useful for studying nocturnal chemistry of N2O 5 in the source region.

KW - Dinitrogen pentoxide

KW - Heterogeneous reaction

KW - Laser-induced fluorescence

KW - NO sink

KW - Urban atmosphere

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