Please use this identifier to cite or link to this item: http://hdl.handle.net/2381/32624
Title: Intercomparison of NO3 radical detection instruments in the atmosphere simulation chamber SAPHIR
Authors: Dorn, H-P.
Apodaca, R. L.
Ball, Stephen M.
Brauers, T.
Brown, S. S.
Crowley, J. N.
Dube, W. P.
Fuchs, H.
Haeseler, R.
Heitmann, U.
Jones, R. L.
Kiendler-Scharr, A.
Labazan, I.
Langridge, J. M.
Meinen, J.
Mentel, T. F.
Platt, U.
Poehler, D.
Rohrer, F.
Ruth, A. A.
Schlosser, E.
Schuster, G.
Shillings, A. J. L.
Simpson, W. R.
Thieser, J.
Tillmann, R.
Varma, R.
Venables, D. S.
Wahner, A.
First Published: 2-May-2013
Publisher: Copernicus Publications on behalf of the European Geosciences Union
Citation: Atmospheric Measurement Techniques, 2013, 6 (5), pp. 1111-1140
Abstract: The detection of atmospheric NO[subscript: 3] radicals is still challenging owing to its low mixing ratios (≈ 1 to 300 pptv) in the troposphere. While long-path differential optical absorption spectroscopy (DOAS) has been a well-established NO[subscript: 3] detection approach for over 25 yr, newly sensitive techniques have been developed in the past decade. This publication outlines the results of the first comprehensive intercomparison of seven instruments developed for the spectroscopic detection of tropospheric NO[subscript: 3]. Four instruments were based on cavity ring-down spectroscopy (CRDS), two utilised open-path cavity-enhanced absorption spectroscopy (CEAS), and one applied "classical" long-path DOAS. The intercomparison campaign "NO3Comp" was held at the atmosphere simulation chamber SAPHIR in Jülich (Germany) in June 2007. Twelve experiments were performed in the well-mixed chamber for variable concentrations of NO[subscript: 3], N[subscript: 2]O[subscript: 5], NO[subscript: 2], hydrocarbons, and water vapour, in the absence and in the presence of inorganic or organic aerosol. The overall precision of the cavity instruments varied between 0.5 and 5 pptv for integration times of 1 s to 5 min; that of the DOAS instrument was 9 pptv for an acquisition time of 1 min. The NO[subscript: 3] data of all instruments correlated excellently with the NOAA-CRDS instrument, which was selected as the common reference because of its superb sensitivity, high time resolution, and most comprehensive data coverage. The median of the coefficient of determination (r[superscript: 2]) over all experiments of the campaign (60 correlations) is r[superscript: 2] = 0.981 (quartile 1 (Q1): 0.949; quartile 3 (Q3): 0.994; min/max: 0.540/0.999). The linear regression analysis of the campaign data set yielded very small intercepts (median: 1.1 pptv; Q1/Q3: −1.1/2.6 pptv; min/max: −14.1/28.0 pptv), and the slopes of the regression lines were close to unity (median: 1.01; Q1/Q3: 0.92/1.10; min/max: 0.72/1.36). The deviation of individual regression slopes from unity was always within the combined accuracies of each instrument pair. The very good correspondence between the NO[subscript: 3] measurements by all instruments for aerosol-free experiments indicates that the losses of NO[subscript: 3] in the inlet of the instruments were determined reliably by the participants for the corresponding conditions. In the presence of inorganic or organic aerosol, however, differences in the measured NO[subscript: 3] mixing ratios were detectable among the instruments. In individual experiments the discrepancies increased with time, pointing to additional NO[subscript: 3] radical losses by aerosol deposited onto the filters or on the inlet walls of the instruments. Instruments using DOAS analyses showed no significant effect of aerosol on the detection of NO[subscript: 3]. No hint of a cross interference of NO[subscript: 2] was found. The effect of non-Lambert–Beer behaviour of water vapour absorption lines on the accuracy of the NO[subscript: 3] detection by broadband techniques was small and well controlled. The NO3Comp campaign demonstrated the high quality, reliability and robustness of performance of current state-of-the-art instrumentation for NO[subscript: 3] detection.
DOI Link: 10.5194/amt-6-1111-2013
ISSN: 1867-1381
eISSN: 1867-8548
Links: http://www.atmos-meas-tech.net/6/1111/2013/amt-6-1111-2013.html
http://hdl.handle.net/2381/32624
Version: Publisher Version
Status: Peer-reviewed
Type: Journal Article
Rights: Copyright © the authors, 2013. This is an open-access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0/ ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Appears in Collections:Published Articles, Dept. of Chemistry

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