DOAS-measurement of the NO&amp;lt;sub&amp;gt;2&amp;lt;/sub&amp;gt; formation rate from NO&amp;lt;sub&amp;gt;x&amp;lt;/sub&amp;gt; emissions into the atmosphere

Frins, Erna M.; Osorio, Matías; Casaballe, Nicolás; Belsterli, G.; Wagner, Thomas; Platt, U.

doi:10.5194/amt-5-1165-2012

Cited by 8 publications

(4 citation statements)

References 21 publications

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“…It is based on the measurement of sunlight scattered at multiple elevation angles towards the horizon, thus increasing the sensitivity to absorbers present close to the ground compared to the zenith viewing geometry (Hönninger et al, 2004). MAX-DOAS studies published so far have been mainly focused on the retrieval of NO 2 (e.g., Wittrock et al, 2004;Vlemmix et al, 2010;Frins et al, 2012;Hendrick et al, 2014;Ma et al, 2013;Wang et al, 2014), halogen oxides like BrO and IO (e.g., Frieß et al, 2011;Großmann et al, 2013), formaldehyde (e.g., Heckel et al, 2005;Wagner et al, 2011), and aerosols (e.g., Wagner et al, 2004;Frieß et al, 2006;Clémer et al, 2010). A lot of work has been done on MAX-DOAS measurements of volcanic SO 2 (e.g., Bobrowski et al, 2007;Galle et al, 2010), but so far only a few studies deal with MAX-DOAS observations of this species in polluted areas (e.g., Irie et al, 2011;Lee et al, 2008;Wu et al, 2013), despite the fact that, as for other trace gases like NO 2 , HCHO, and BrO, the combination of both surface concentration and VCD retrievals makes MAX-DOAS a useful technique for validating SO 2 satellite data.…”

Section: T Wang Et Al: Evaluation Of Tropospheric So 2 In Xianghementioning

confidence: 99%

Evaluation of tropospheric SO2 retrieved from MAX-DOAS measurements in Xianghe, China

et al. 2014

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Abstract. Ground-based multi-axis differential optical absorption spectroscopy (MAX-DOAS) measurements of sulfur dioxide (SO 2 ) have been performed at the Xianghe station (39.8 • N, 117.0 • E) located at ∼ 50 km southeast of Beijing from March 2010 to February 2013. Tropospheric SO 2 vertical profiles and corresponding vertical column densities (VCDs), retrieved by applying the optimal estimation method to the MAX-DOAS observations, have been used to study the seasonal and diurnal cycles of SO 2 , in combination with correlative measurements from in situ instruments, as well as meteorological data. A marked seasonality was observed in both SO 2 VCD and surface concentration, with a maximum in winter (February) and a minimum in summer (July). This can be explained by the larger emissions in winter due to the domestic heating and, in case of surface concentration, by more favorable meteorological conditions for the accumulation of SO 2 close to the ground during this period. Wind speed and direction are also found to be two key factors in controlling the level of the SO 2 -related pollution at Xianghe. In the case of east or southwest wind, the SO 2 concentration does not change significantly with the wind speed, since the city of Tangshan and heavy polluting industries are located to the east and southwest of the station, respectively. In contrast, when wind comes from other directions, the stronger the wind, the less SO 2 is observed due to a more effective dispersion. Regarding the diurnal cycle, the SO 2 amount is larger in the early morning and late evening and lower at noon, in line with the diurnal variation of pollutant emissions and atmospheric stability. A strong correlation with correlation coefficients between 0.6 and 0.9 is also found between SO 2 and aerosols in winter, suggesting that anthropogenic SO 2 , through the formation of sulfate aerosols, contributes significantly to the total aerosol content during this season. The observed diurnal cycles of MAX-DOAS SO 2 surface concentration are also in very good agreement (correlation coefficient close to 0.9) with those from collocated in situ data, indicating the good reliability and robustness of our retrieval.

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Section: T Wang Et Al: Evaluation Of Tropospheric So 2 In Xianghementioning

confidence: 99%

Evaluation of tropospheric SO2 retrieved from MAX-DOAS measurements in Xianghe, China

et al. 2014

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“…SO 2 fitting windows ranging between 303 and 325 nm have generally been used in previous studies (Bobrowski and Platt, 2007;Lee et al, 2008;Galle et al, 2010;Irie et al, 2011). At wavelengths shorter than 303 nm, the limiting factor is the strong ozone absorption which interferes with SO 2 , leading to lower signal to noise ratio.…”

Section: Doas Analysismentioning

confidence: 99%

“…MAX-DOAS studies published so far have been mainly focused on the retrieval of NO 2 (e.g., Wittrock et al, 2004;Vlemmix et al, 2010;Frins et al, 2012;Hendrick et al, 2014;Ma et al, 2013;Wang et al, 2014), halogen oxides like BrO and IO (e.g., Frieß et al, 2011;Großmann et al, 2013), formaldehyde (e.g., Heckel et al, 2005;Wagner et al, 2011), and aerosols (e.g., Wagner et al, 2004;Frieß et al, 2006;Clémer et al, 2010). A lot of work has been done on MAX-DOAS measurements of volcanic SO 2 (e.g., Bobrowski et al, 2007;Galle et al, 2010), but so far only a few studies deal with MAX-DOAS observations of this species in polluted areas (e.g., Irie et al, 2011;Lee et al, 2008;Wu et al, 2013), despite the fact that, as for other trace gases like NO 2 , HCHO, and BrO, the combination of both surface concentration and VCD retrievals makes MAX-DOAS a useful technique for validating SO 2 satellite data.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of tropospheric SO2 retrieved from MAX-DOAS measurements in Xianghe, China

Wang¹,

Hendrick²,

Wang³

et al. 2014

Preprint

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Abstract. Ground-based Multi-Axis Differential Optical Absorption Spectroscopy (MAX-DOAS) measurements of sulfur dioxide (SO2) have been performed at the Xianghe station (39.75° N, 116.96° E) located at ~50 km southeast of Beijing from March 2010 to February 2013. Tropospheric SO2 vertical profiles and corresponding vertical column densities (VCDs), retrieved by applying the Optimal Estimation Method to the MAX-DOAS observations, have been used to study the seasonal and diurnal cycles of SO2, in combination to correlative measurements from in situ instruments, as well as meteorological data. A marked seasonality was observed in both SO2 VCD and surface concentration, with a maximum in winter (February) and a minimum in summer (July). This can be explained by the larger emissions in winter due to the domestic heating and more favorable meteorological conditions for the accumulation of SO2 close to the ground during this period. Wind speed and direction are also found to be two key factors in controlling the level of the SO2-related pollution at Xianghe. In the case of east or southwest wind, the SO2 concentration rises with the increase of the wind speed, since heavy polluting industries are located to the east and southwest of the station. In contrast, when wind comes from other directions, the stronger the wind, the less SO2 is observed. Regarding the diurnal cycle, the SO2 amount is larger in the early morning and late evening and lower at noon, in line with the diurnal variation of pollutant emissions and atmospheric stability. The observed diurnal cycles of MAX-DOAS SO2 surface concentration are also in very good agreement (correlation coefficient close to 0.9) with those from collocated in-situ data, demonstrating the reliability and robustness of our retrieval.

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“…Being an useful and reliable technique it have been used for measurement of HCHO, NO2, sulfur dioxide (SO2) etc. from both groundbased and satellite-borne instruments (Leue et al, 2001;Hönninger et al, 2004;Beirle et al, 2011;Gonzi et al, 2011;Frins et al, 2012). In this manuscript, simultaneous observations of NO2 and HCHO are being reported in Pune city for the first time, which aims at a better understanding of tropospheric chemistry (including ozone formation) in Pune city.…”

Section: Introductionmentioning

confidence: 99%

Year-long Concurrent MAX-DOAS Observations of Nitrogen Dioxide and Formaldehyde at Pune: Understanding Diurnal and Seasonal Variation Drivers

Biswas

Mahajan

2021

Aerosol Air Qual. Res.

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Year-long observations of nitrogen dioxide (NO2) and formaldehyde (HCHO) using the Multi-Axis Differential Absorption Spectroscopy (MAX-DOAS) technique are reported from Pune City, India. We studied the diurnal and seasonal variations, effect of biomass burning and the weekend effect on both species. NO2 diurnal profiles displayed a traffic induced peak at ~09:00 hrs. HCHO also showed a morning peak ~10:00 hrs due to production from oxidation of VOCs in the presence of solar radiation. Both NO2 and HCHO show the highest average concentrations during the winter (October, November, December, January and February-ONDJF), with mean mixing ratios of 2.0 ± 1.4 ppb and 3.0 ± 1.4 ppb, respectively. These observations suggest that a lower boundary layer (BL) height during ONDJF leads to higher concentrations of trace gases. During June, July, August, and September (JJAS), both trace gases show a minimum in their concentrations, with average mixing ratios for NO2 and HCHO being 0.9 ± 0.6 ppb and 1.1 ± 0.7 ppb, most likely due to removal by wet deposition. There was no significant difference in both the trace gases on weekdays and weekends. Using back-trajectory analysis, we conclude that air parcels coming from regions of biomass burning increased the concentrations in Pune. Emissions from nearby industrial areas of Bhosari and Pimpri-Chinchwad increased NO2 concentrations in Pune city. Finally, we compared the observations with previous reports over India and found that both HCHO and NO2 concentrations are lower in Pune compared to the other large cities in India.

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DOAS-measurement of the NO<sub>2</sub> formation rate from NO<sub>x</sub> emissions into the atmosphere

Cited by 8 publications

References 21 publications

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China

Year-long Concurrent MAX-DOAS Observations of Nitrogen Dioxide and Formaldehyde at Pune: Understanding Diurnal and Seasonal Variation Drivers

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DOAS-measurement of the NO&lt;sub&gt;2&lt;/sub&gt; formation rate from NO&lt;sub&gt;x&lt;/sub&gt; emissions into the atmosphere

Cited by 8 publications

References 21 publications

Evaluation of tropospheric SO&lt;sub&gt;2&lt;/sub&gt; retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO&lt;sub&gt;2&lt;/sub&gt; retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO&lt;sub&gt;2&lt;/sub&gt; retrieved from MAX-DOAS measurements in Xianghe, China

Year-long Concurrent MAX-DOAS Observations of Nitrogen Dioxide and Formaldehyde at Pune: Understanding Diurnal and Seasonal Variation Drivers

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Resources

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DOAS-measurement of the NO<sub>2</sub> formation rate from NO<sub>x</sub> emissions into the atmosphere

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China

Evaluation of tropospheric SO<sub>2</sub> retrieved from MAX-DOAS measurements in Xianghe, China