Volume 200, 2017

VOC emission rates over London and South East England obtained by airborne eddy covariance

Abstract

Volatile organic compounds (VOCs) originate from a variety of sources, and play an intrinsic role in influencing air quality. Some VOCs, including benzene, are carcinogens and so directly affect human health, while others, such as isoprene, are very reactive in the atmosphere and play an important role in the formation of secondary pollutants such as ozone and particles. Here we report spatially-resolved measurements of the surface-to-atmosphere fluxes of VOCs across London and SE England made in 2013 and 2014. High-frequency 3-D wind velocities and VOC volume mixing ratios (made by proton transfer reaction – mass spectrometry) were obtained from a low-flying aircraft and used to calculate fluxes using the technique of eddy covariance. A footprint model was then used to quantify the flux contribution from the ground surface at spatial resolution of 100 m, averaged to 1 km. Measured fluxes of benzene over Greater London showed positive agreement with the UK’s National Atmospheric Emissions Inventory, with the highest fluxes originating from central London. Comparison of MTBE and toluene fluxes suggest that petroleum evaporation is an important emission source of toluene in central London. Outside London, increased isoprene emissions were observed over wooded areas, at rates greater than those predicted by a UK regional application of the European Monitoring and Evaluation Programme model (EMEP4UK). This work demonstrates the applicability of the airborne eddy covariance method to the determination of anthropogenic and biogenic VOC fluxes and the possibility of validating emission inventories through measurements.

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Article information

Article type
Paper
Submitted
04 janv. 2017
Accepted
03 févr. 2017
First published
03 févr. 2017
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2017,200, 599-620

VOC emission rates over London and South East England obtained by airborne eddy covariance

A. R. Vaughan, J. D. Lee, M. D. Shaw, P. K. Misztal, S. Metzger, M. Vieno, B. Davison, T. G. Karl, L. J. Carpenter, A. C. Lewis, R. M. Purvis, A. H. Goldstein and C. N. Hewitt, Faraday Discuss., 2017, 200, 599 DOI: 10.1039/C7FD00002B

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