Quantification of Atmospheric Ammonia Concentrations: A Review of Its Measurement and Modeling

Nair, Arshad Arjunan; Yu, Fangqun

doi:10.3390/atmos11101092

Cited by 60 publications

(25 citation statements)

References 273 publications

(295 reference statements)

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“…With the exception of the Background (HUFS) site, all of the studied sites recorded the lowest ammonia concentrations during winter, which agrees with the findings of previous ammonia measurement studies [66]. This decrease in ammonia concentration during the winter has been linked to the formation of NH 4 NO 3 (ammonium nitrate) particulates [6,[67][68][69].…”

Section: Seasonal Variation In Ammonia Concentrationsupporting

confidence: 89%

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

et al. 2021

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Atmospheric ammonia is a significant pollutant throughout the year, necessitating standardized measurement and identification of emission factors. We performed a quantized evaluation of ammonia concentrations at various locations in and around Seoul, South Korea. The established testing methods of the Radiello Passive Sampler were used for ammonia sampling, and the method was validated using annular denuder sampling. Urban and suburban areas were studied to gain a deeper understanding of the factors responsible for ammonia pollution. This study aimed to establish the fluctuations in concentration over one year, by analyzing the seasonal and regional variation in ammonia concentration. Livestock and agricultural areas recorded the highest concentration of ammonia among all sites, with the highest concentration recorded in autumn. However, at most of the other studied sites, the highest and lowest ammonia concentrations were recorded during summer and winter, respectively. This study attempted to establish a correlation between ammonia concentration and temperature, as well as ammonia concentration and altitude.

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Section: Seasonal Variation In Ammonia Concentrationsupporting

confidence: 89%

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

et al. 2021

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“…Meanwhile, direct ammonia emission monitoring is usually expensive and thus is not feasible to be carried out at large scales. Instead, monitoring NH 3 concentrations and its downstream products (e.g.,

\mathrm{N}{\mathrm{H}}_{4}^{+}

and NH x wet deposition) at relatively lower cost can be used to investigate NH 3 emissions from local to national scales and to help assess the effectiveness of emission control policies (Nair & Yu, 2020; Sutton et al., 2003).…”

Section: Introductionmentioning

confidence: 99%

4D‐Var Inversion of European NH₃ Emissions Using CrIS NH₃ Measurements and GEOS‐Chem Adjoint With Bi‐Directional and Uni‐Directional Flux Schemes

et al. 2022

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We conduct the first 4D-Var inversion of NH 3 accounting for NH 3 bi-directional flux, using CrIS satellite NH 3 observations over Europe in 2016. We find posterior NH 3 emissions peak more in springtime than prior emissions at continental to national scales, and annually they are generally smaller than the prior emissions over central Europe, but larger over most of the rest of Europe. Annual posterior anthropogenic NH 3 emissions for 25 European Union members (EU25) are 25% higher than the prior emissions and very close (<2% difference) to other inventories. Our posterior annual anthropogenic emissions for EU25, the UK, the Netherlands, and Switzerland are generally 10%-20% smaller than when treating NH 3 fluxes as uni-directional emissions, while the monthly regional difference can be up to 34% (Switzerland in July). Compared to monthly mean in-situ observations, our posterior NH 3 emissions from both schemes generally improve the magnitude and seasonality of simulated surface NH 3 and bulk NH x wet deposition throughout most of Europe, whereas evaluation against hourly measurements at a background site shows the bi-directional scheme better captures observed diurnal variability of surface NH 3 . This contrast highlights the need for accurately simulating diurnal variability of NH 3 in assimilation of sun-synchronous observations and also the potential value of future geostationary satellite observations. Overall, our top-down ammonia emissions can help to examine the effectiveness of air pollution control policies to facilitate future air pollution management, as well as helping us understand the uncertainty in top-down NH 3 emissions estimates associated with treatment of NH 3 surface exchange.Plain Language Summary Atmospheric ammonia contributes to air pollutants and excessive deposition of reactive nitrogen that is detrimental to sensitive ecosystems. Ammonia is emitted mainly by agricultural livestock and fertilizer use. While surface measurements of NH 3 are sparse, satellite observations can provide near daily global coverage. Here we calculate monthly NH 3 emissions over Europe, the only region adopting NH 3 control policies, using an air quality model coupled with a process-based bi-directional NH 3 flux scheme and NH 3 measurements observed by the CrIS satellite instrument. Our CrIS-derived annual regional total anthropogenic NH 3 emissions are close (<2% difference) to statistic-based bottom-up estimates and are 10%-20% lower than when treating NH 3 exchange between the atmosphere and biosphere as one-way CAO ET AL.

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“…The exposure limit of ammonia to humans is 35 ppm for 10 min according to Occupational Safety and Health Administration [ 5 , 6 ], showing that this substance is incredibly dangerous. It can be noted that the content of ammonia in the atmosphere is relatively low and only reaches the level of ppb (1–5 ppb) [ 2 , 7 ]. At the same time, this gas is extremely aggressive and highly toxic and has harmful effects on the skin, eyes, digestive tract, and mouth [ 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Ammonia Gas Sensors Based on Carbon Nanomaterials

et al. 2021

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This review paper is devoted to an extended analysis of ammonia gas sensors based on carbon nanomaterials. It provides a detailed comparison of various types of active materials used for the detection of ammonia, e.g., carbon nanotubes, carbon nanofibers, graphene, graphene oxide, and related materials. Different parameters that can affect the performance of chemiresistive gas sensors are discussed. The paper also gives a comparison of the sensing characteristics (response, response time, recovery time, operating temperature) of gas sensors based on carbon nanomaterials. The results of our tests on ammonia gas sensors using various techniques are analyzed. The problems related to the recovery of sensors using various approaches are also considered. Finally, the impact of relative humidity on the sensing behavior of carbon nanomaterials of various different natures was estimated.

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Quantification of Atmospheric Ammonia Concentrations: A Review of Its Measurement and Modeling

Cited by 60 publications

References 273 publications

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

4D‐Var Inversion of European NH₃ Emissions Using CrIS NH₃ Measurements and GEOS‐Chem Adjoint With Bi‐Directional and Uni‐Directional Flux Schemes

Recent Advances in Ammonia Gas Sensors Based on Carbon Nanomaterials

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Quantification of Atmospheric Ammonia Concentrations: A Review of Its Measurement and Modeling

Cited by 60 publications

References 273 publications

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

Seasonal and Spatial Variations of Atmospheric Ammonia in the Urban and Suburban Environments of Seoul, Korea

4D‐Var Inversion of European NH3 Emissions Using CrIS NH3 Measurements and GEOS‐Chem Adjoint With Bi‐Directional and Uni‐Directional Flux Schemes

Recent Advances in Ammonia Gas Sensors Based on Carbon Nanomaterials

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4D‐Var Inversion of European NH₃ Emissions Using CrIS NH₃ Measurements and GEOS‐Chem Adjoint With Bi‐Directional and Uni‐Directional Flux Schemes