Airborne measurements of the vertical flux of ozone in the boundary layer |
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Authors: | D. H. Lenschow A. C. Delany B. B. Stankov D. H. Stedman |
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Affiliation: | (1) National Center for Atmospheric Research, 80307 Boulder, Colo., USA;(2) Department of Atmospheric and Oceanic Science, University of Michigan, 48109 Ann Arbor, Mich., USA |
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Abstract: | A fast-response chemiluminescent ozone sensor was mounted in an aircraft instrumented for air motion and temperature measurements. Measurements of the vertical flux of ozone by the eddy correlation technique were obtained after correcting for time delay and pressure sensitivity in the ozone sensor output. The observations were taken over eastern Colorado for two days in April, one a morning and the other an afternoon flight. Since the correlation coefficient of ozone and vertical velocity is small compared to, for example, temperature and vertical velocity in the lower part of the convective boundary layer, an averaging length of the order of 100 km was required to obtain a reasonably accurate estimate of the ozone flux. The measured variance of ozone appeared to be too large, probably mainly due to random noise in the sensor output, although the possibility of the production of ozone fluctuations by chemical reactions cannot be dismissed entirely. Terms in the budget equation for ozone were estimated from the aircraft measurements and the divergence of the ozone flux was found to be large compared to the flux at the surface divided by the boundary-layer height.Part of this work was carried out while a visitor at Risø National Laboratory, Denmark.The National Center for Atmospheric Research is sponsored by the National Science Foundation. |
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