Photoenhanced uptake of NO<sub>2</sub> on mineral dust: Laboratory experiments and model simulations

Ndour, Marième; D’Anna, Barbara; George, Christian; Ka, Oumar; Balkanski, Yves; Kleffmann, Jörg; Stemmler, Konrad; Ammann, Markus

doi:10.1029/2007gl032006

Cited by 243 publications

(255 citation statements)

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“…This includes different surfaces (ground and aerosols) such as the photocatalytic conversion of NO 2 on mineral dust (Ndour et al 2008), the dark heterogeneous conversion of NO 2 on suspended soot particles (Ammann et al 1998;Arens et al 2001), the heterogeneous hydrolysis of NO 2 (Finlayson-Pitts et al 2003), the photosensitized reduction of NO 2 on organic surfaces (George et al 2005;Stemmler et al 2006), the photolysis of adsorbed nitric acid (HNO 3 ) (Zhou et al 2003) and nitrate (NO 3 − ) (Zhou et al 2001), the HNO 3 conversion on primary organic aerosols (Ziemba et al 2010) and from soilemitted nitrite (Su et al 2011). Direct emissions from combustion processes (i.e.…”

Section: Responsible Editor: Gerhard Lammelmentioning

confidence: 99%

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Bernard

Cazaunau

Grosselin

et al. 2015

Environ Sci Pollut Res

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Nitrous acid (HONO), as a precursor of the hydroxyl radical (OH), plays an important role in the photochemistry of the troposphere, especially in the polluted urban atmosphere. A field campaign was conducted to measure atmospheric HONO concentration and that of other pollutants (such as NO 2 and particle mass concentration) in the autumn of 2009 at Shanghai urban areas. HONO mixing ratios were simultaneously measured by three different techniques: long path absorption photometer (LOPAP), differential optical absorption spectroscopy (DOAS) and chemical ionization mass spectrometer (CIMS). The measurements showed that the mixing ratios of HONO were highly variable and depended strongly on meteorological parameters. The HONO levels ranged from 0.5 to 7 ppb with maximum values during early morning and minimum levels during late afternoon. The three instruments reproduced consistent diurnal pattern of HONO concentrations with higher concentration during the night compared to the daylight hours. Comparison of HONO LOPAP /HONO CIMS ratios during daytime and nighttime periods exhibited a non-systematic disagreement of 0.93 and 1.16, respectively. This would indicate different chemical compositions of sampled air for the LOPAP and the CIMS instruments during daytime and nighttime periods, which have possibly affected measurements. Mean HONO concentration reported by LOPAP was 33 % higher than by DOAS on the whole period with no significant difference between daytime and nighttime periods. This revealed a systematic deviation from both instruments. The present data provides complementary information of HONO ambient levels in the atmosphere of Shanghai urban areas.

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Section: Responsible Editor: Gerhard Lammelmentioning

confidence: 99%

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Bernard

Cazaunau

Grosselin

et al. 2015

Environ Sci Pollut Res

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“…[15][16][17] The uptake coefficient (g) is one of the key parameters in modelling studies. Several studies have measured the g of NO 2 on dust from Saharan or Asian source regions 5,18 and surrogate materials including CaCO 3 , 7 Al 2 O 3 , Fe 2 O 3 , CaO, MgO, TiO 2 5,19 and clay minerals. 6 The g of NO 2 on these samples varies from 10 À4 to 10 À9 depending on the substrates and experimental conditions, 20 and was recommended to be 1.2 Â 10 À8 by Crowley et al 21 Except for a few reaction systems, such as reactions of NO 2 on TiO 2 , 18,22,23 Saharan sand, 23 and CaCO 3 , 7 however, most of these g values were measured under dry conditions due to the limitations of the low pressure reactors used, 5,19 or at a single point of relative humidity (g was measured for NO 2 on TiO 2 and Saharan sand at RH = 25%).…”

Section: Introductionmentioning

confidence: 99%

“…6 The g of NO 2 on these samples varies from 10 À4 to 10 À9 depending on the substrates and experimental conditions, 20 and was recommended to be 1.2 Â 10 À8 by Crowley et al 21 Except for a few reaction systems, such as reactions of NO 2 on TiO 2 , 18,22,23 Saharan sand, 23 and CaCO 3 , 7 however, most of these g values were measured under dry conditions due to the limitations of the low pressure reactors used, 5,19 or at a single point of relative humidity (g was measured for NO 2 on TiO 2 and Saharan sand at RH = 25%). 18,23 However, g has been found to show a strong dependence on humidity for some reactions. Both the increase and the decrease of g have been observed as a function of RH.…”

Section: Introductionmentioning

confidence: 99%

“…20 Besides surface nitrates and nitrites, 19,[29][30][31] HONO is also detected as a gaseous product. 6,11,18 Under ultra-violet irradiation, the HONO yield (y HONO ) is 75%, 33% and 80% for reactions of NO 2 on pure TiO 2 , 22 1% TiO 2 /SiO 2 and Saharan sand, 18 respectively. It has been postulated that the surface acidity, microstructure and other unknown factors control the production of HONO.…”

Section: Introductionmentioning

confidence: 99%

“…It has been postulated that the surface acidity, microstructure and other unknown factors control the production of HONO. 18 However, the HONO yields for heterogeneous reactions of NO 2 on kaolin and hematite are as yet unclear, and how the RH affects the HONO yield for the reactions of NO 2 on these materials is also unknown.…”

Section: Introductionmentioning

confidence: 99%

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Influence of relative humidity on heterogeneous kinetics of NO₂ on kaolin and hematite

Liu

Han

et al. 2015

Phys. Chem. Chem. Phys.

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In order to obtain reliable kinetic parameters, it is required to measure the reaction kinetics of important heterogeneous reactions at ambient relative humidity (RH). In this study, the uptake coefficients and HONO yields for the heterogeneous reaction of NO 2 on kaolin and hematite were measured at RH from 7% to 74% and at ambient pressure in the dark using a coated-wall flow tube reactor. The initial true uptake coefficient (g t,ini ) of NO 2 at RH 7% was measured to be (1.44 AE 0.10) Â 10 À7 and (1.58 AE 0.13) Â 10 À6 on kaolin and hematite, respectively, while it decreased notably on both minerals, accompanied by an increase of HONO yields, as RH increased. The average g t,ini at 32-74% RH was (4.42 AE 1.17) Â 10 À8 and (2.83 AE 0.84) Â 10 À7 on kaolin and hematite, respectively. The corresponding mean HONO yield was (36.0 AE 16.1)% and (75.9 AE 3.32)%, respectively.

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Evidence for a nitrous acid (HONO) reservoir at the ground surface in Bakersfield, CA, during CalNex 2010

et al. 2014

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Measurements of HONO (g) were validated to be free of known interferences for wet chemical instrumentation. The accumulation of nitrite into particulate matter was found to be enhanced when gaseous mixing ratios of HONO (g) were highest. Reactive uptake of HONO (g) on to lofted dust and the ground surface, forming a reservoir, is a potential mechanism to explain these observations. The AIM-IC HONO (g) measurements were parameterized in a chemical model to calculate the ground surface daytime HONO (g) source strength at 4.5 m above the surface, found to be on the order of 1.27 ppb h À1, to determine the relative importance of a surface reservoir. If all deposited nighttime HONO (g) is reemitted the following day, up to 30% of the daytime HONO (g) source at CalNex-SJV may be accounted for. The observations of HONO (g) and NO 2 À (p) in Bakersfield, during CalNex, suggest a surface sink and source of HONO (g) . Extension of currently accepted unknown daytime HONO (g) source reactions to include a potential surface HONO (g) reservoir should therefore be sound, but quantitation of the relative contributions of each surface source toward daytime HONO (g) production remains to be resolved.

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Photoenhanced uptake of NO₂ on mineral dust: Laboratory experiments and model simulations

Cited by 243 publications

References 20 publications

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Influence of relative humidity on heterogeneous kinetics of NO₂ on kaolin and hematite

Evidence for a nitrous acid (HONO) reservoir at the ground surface in Bakersfield, CA, during CalNex 2010

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Photoenhanced uptake of NO2 on mineral dust: Laboratory experiments and model simulations

Cited by 243 publications

References 20 publications

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Measurements of nitrous acid (HONO) in urban area of Shanghai, China

Influence of relative humidity on heterogeneous kinetics of NO2 on kaolin and hematite

Evidence for a nitrous acid (HONO) reservoir at the ground surface in Bakersfield, CA, during CalNex 2010

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Photoenhanced uptake of NO₂ on mineral dust: Laboratory experiments and model simulations

Influence of relative humidity on heterogeneous kinetics of NO₂ on kaolin and hematite