Assessing the ammonium nitrate formation regime in the Paris megacity and
its representation in the CHIMERE model

Pétetin, Hervé; Sciare, Jean; Bressi, M.; Gros, Valérie; Rosso, Amandine; Sanchez, Olivier; Sarda‐Estève, Roland; Petit, Jean-Eudes; Beekmann, Matthias

doi:10.5194/acp-16-10419-2016

Cited by 62 publications

(55 citation statements)

References 91 publications

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“…[22][23][24][25][26] Our results may help in better understanding the aerosol formation in the fog waters of California's central valley, and in polluted urban environments such as New York and Paris where signicant nitric acidamine chemistries have been recently suggested to play a role in the aerosol particle formation in these areas. [71][72][73] In the New York City area, amines are likely emitted from marine sources whereas in Paris, the source of amines is the agricultural activities around the City area. The intense traffic in these urban regions further support the role of the Criegee-amine interactions in the particle formation.…”

Section: Criegee-amine Interactions In the Gas Phasementioning

confidence: 99%

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Kumar

Francisco

2019

Chem. Sci.

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Section: Criegee-amine Interactions In the Gas Phasementioning

confidence: 99%

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Kumar

Francisco

2019

Chem. Sci.

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“…Ammonium nitrate (NH 4 NO 3 , AN) particles represent an important type of the anthropogenic aerosol (Bian et al, 2017; Drugé et al, 2019; Petetin et al, 2016; Tao et al, 2017; Y. Wang et al, 2013; Xu & Penner, 2012). Particulate AN is generated by the reaction between gaseous ammonia (NH 3 ) and nitric acid (HNO 3 ), the latter being formed by the oxidation of NO x species, that is, nitric oxide (NO) and nitric dioxide (NO 2 ) (Nowak et al, 2010; Paulot et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Solid Ammonium Nitrate Aerosols as Efficient Ice Nucleating Particles at Cirrus Temperatures

et al. 2020

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Recent satellite observations and high-altitude aircraft measurements have demonstrated the presence of solid ammonium nitrate particles in the Asian monsoon upper troposphere. Most likely, these particles are formed by a heterogeneous crystallization mechanism, given that efflorescence is strongly inhibited for pure ammonium nitrate solution droplets. Crystallization can be induced by the presence of ammonium sulfate, which more easily crystallizes and serves as a heterogeneous nucleus for the crystallization of ammonium nitrate. In the present study, we have investigated this crystallization pathway for different amounts of ammonium sulfate admixed to ammonium nitrate solution droplets and measured the heterogeneous ice nucleation ability of the crystallized particles at cirrus temperatures in a cloud chamber and with a continuous flow diffusion chamber. We found that an admixture of only 0.6 mol% of ammonium sulfate was sufficient to induce the crystallization of ammonium nitrate at 223 K and 22% RH w . These almost pure, crystalline ammonium nitrate particles showed the same temperature-dependent ice nucleation behavior as observed for other inorganic salts like ammonium sulfate and sodium chloride. At temperatures above 230 K, the crystalline ammonium nitrate particles first deliquesced and nucleated ice homogeneously at ice saturation ratios between about 1.45 and 1.50. Below 230 K, heterogeneous ice nucleation was observed to start at an ice saturation ratio as low as 1.13. The deduced ice nucleation active surface site densities were in the range from 10 10 -10 11 m −2 at ice saturation ratios between 1.2 and 1.4, thus similar in magnitude to those of desert dust particles.

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“…The gas-phase reaction of NO 2 and OH radicals is one major pathway to form nitric acid (HNO 3 ) (Calvert and Stockwell, 1983), which subsequently reacts with ammonia (NH 3 ) to produce ammonium nitrate (NH 4 NO 3 ). As typical photochemical processes, these reactions dominate daytime nitrate formation, and have been widely investigated in both field and modeling studies (Sharma et al, 2007;Petetin et al, 2016). Heterogeneous uptake of the photochemical formed nitric acid by alkali compounds, e.g., dust and sea salt particles, is also a considerable pathway to form nitrate in some regions (Bian et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Two years of online measurement of fine particulate nitrate in the western Yangtze River Delta: influences of thermodynamics and N<sub>2</sub>O<sub>5</sub> hydrolysis

et al. 2018

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Abstract. Particulate nitrate contributes a large fraction of secondary aerosols. Despite understanding of its important role in regional air quality and global climate, long-term continuous measurements are rather limited in China. In this study, we conducted online measurement of PM2.5 (particulate matter with diameters less than 2.5 µm) nitrate for 2 years from March 2014 to February 2016 using the Monitor for AeRosols and Gases in ambient Air (MARGA) in the western Yangtze River Delta (YRD), eastern China, and investigate the main factors that influenced its temporal variations and formation pathways. Compared to other sites in China, an overall high concentration of particulate nitrate was observed, with a mean value of 15.8 µg m−3 (0.5 to 92.6 µg m−3). Nitrate on average accounted for 32 % of the total mass of water-soluble ions and the proportion increased with PM loading, indicating that nitrate is a major driver of haze pollution episodes in this region. Sufficient ammonia drove most nitrate into the particle phase in the form of ammonium nitrate. A typical seasonal cycle of nitrate was observed, with the concentrations in winter on average 2 times higher than those in summer mainly due to different meteorological conditions. In summer, the diurnal variation of particulate nitrate was determined by thermodynamic equilibrium, resulting in a much lower concentration during daytime despite a considerable photochemical production. Air masses from the polluted YRD and biomass burning region contributed to the high nitrate concentration during summer. In winter, particulate nitrate did not reveal an evident diurnal variation. Regional transport from northern China played an important role in enhancing nitrate concentration. A total of 18 nitrate episodes were selected to understand the processes that drive the formation of high concentration of nitrate. Rapid nitrate formation was observed during the pre-episode (the day before nitrate episode day) nights, and dominated the increase of total water-soluble ions. Calculated nitrate from N2O5 hydrolysis was highly correlated to and accounted for 80 % of the observed nitrate, suggesting that N2O5 hydrolysis was a major contributor to the nitrate episodes. Our results suggested that rapid formation of nitrate could be a main cause for extreme aerosol pollution events in the YRD during winter, and illustrated the urgent need to control NOx emission.

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Assessing the ammonium nitrate formation regime in the Paris megacity and its representation in the CHIMERE model

Cited by 62 publications

References 91 publications

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Solid Ammonium Nitrate Aerosols as Efficient Ice Nucleating Particles at Cirrus Temperatures

Two years of online measurement of fine particulate nitrate in the western Yangtze River Delta: influences of thermodynamics and N<sub>2</sub>O<sub>5</sub> hydrolysis

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Assessing the ammonium nitrate formation regime in the Paris megacity and its representation in the CHIMERE model

Cited by 62 publications

References 91 publications

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Elucidating the molecular mechanisms of Criegee-amine chemistry in the gas phase and aqueous surface environments

Solid Ammonium Nitrate Aerosols as Efficient Ice Nucleating Particles at Cirrus Temperatures

Two years of online measurement of fine particulate nitrate in the western Yangtze River Delta: influences of thermodynamics and N&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;5&lt;/sub&gt; hydrolysis

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Two years of online measurement of fine particulate nitrate in the western Yangtze River Delta: influences of thermodynamics and N<sub>2</sub>O<sub>5</sub> hydrolysis