Concentrations of nitrous acid, nitric acid, nitrite and nitrate in the gas and aerosol phase at a site in the emission zone during ESCOMPTE 2001 experiment

Ground-based measurements were performed at the “Expérience sur Site pour COntraindre les Modèles de Pollution atmosphérique et de Transport d`Emissions” (ESCOMPTE) field site E3 (Realtor) about 30 km north of the urban environment of Marseille and east of the industrial centre Berre pond to investi...

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Bibliographic Details
Published in:Atmospheric research 2005-03, Vol.74 (1), p.507-524
Main Authors: Acker, K., Möller, D., Auel, R., Wieprecht, W., Kalaß, D.
Format: Article
Language:English
Subjects:
Aerosol
Aerosols
Atmospheric chemistry
Atmospherics
Chromatography
Emission
Emission analysis
Mathematical analysis
Nitrates
Nitric acid
Nitrous acid
Photochemistry
Pollution abatement
Steam jet
Troposphere
Urban environments
Wet denuder
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Summary:Ground-based measurements were performed at the “Expérience sur Site pour COntraindre les Modèles de Pollution atmosphérique et de Transport d`Emissions” (ESCOMPTE) field site E3 (Realtor) about 30 km north of the urban environment of Marseille and east of the industrial centre Berre pond to investigate the formation of nitrous and nitric acid and to detect the distribution of reactive N-species between the gas and particle phase during photochemical pollution events. A wet denuder sampling for gases followed by a steam jet collection for aerosols was both coupled to anion chromatographic analysis. The analytical system provided data continuously with 30-min time resolution between June 13 and July 13, 2001. Indications for heterogeneous formation of nitrous acid during nighttime and daytime on ground and aerosol surfaces were found, the average HNO 2/NO 2 ratio was 6%. Highest concentrations were observed during two episodes of strong pollution accumulation when sea breeze transported industrial, traffic and urban pollution land-inwards. After nocturnal heterogeneous formation (about 0.1 ppb v h −1 were estimated corresponding to increasing HNO 2/NO 2 ratios) and accumulation processes up to 1.2 ppb v HNO 2 were observed. Their photolysis produces up to 5–9×10 6 OH cm −3 s −1 and will contribute significantly to initiation of the daily photochemistry in the lowest part of the troposphere. For the key tropospheric species, HNO 3 daily peaks up to 4 ppb v were detected.
ISSN:0169-8095
1873-2895
DOI:10.1016/j.atmosres.2004.04.009