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http://dx.doi.org/10.5322/JESI.2018.27.7.587

Characteristics of NO and NO2 at Roadside and Urban Residential Locations in Busan  

Jeon, Byung-Il (Department of Environmental Engineering, Silla University)
Publication Information
Journal of Environmental Science International / v.27, no.7, 2018 , pp. 587-595 More about this Journal
Abstract
This research investigated the characteristics of NO and $NO_2$ concentration at roadside (Choryangdong) and residential (Sujeongdong) locations in Busan. The NO concentration at roadside and residential were 34.7 and 8.0 ppb, respectively, and $NO_2$ at roadside and residential were 31.6 and $18.0ppb\;{\mu}g/m^3$, respectively. The NO concentration was the highest in winter at roadside at 37.1 ppb, followed by 35.0 ppb and 34.0 ppb in summer and fall, respectively. $NO_2$ concentration was the highest in spring at roadside at 39.6 ppb, followed by 30.4 ppb and 28.3 ppb in fall and winter, respectively. Number of exceedances per year of 1 hr limit value (0.10 ppm) for $NO_2$ at roadside and residential were 3,585 and 3 hours, respectively. Number of exceedances per year of 24 hr limit value (0.06 ppm) for $NO_2$ at roadside and residential were 32 and 1 days, respectively. Number of exceedances per year of 1 hr limit value (0.1 ppm) for $O_3$ at roadside and residential were 1 and 14 days, respectively. These results indicated that understanding the relationship between roadside and residential could provide insight into establishing a strategy to control urban air quality.
Keywords
Roadside; Residential; NO and $NO_2$ concentration; $O_3$;
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1 Ai, Z. T., Mak, C. M., Lee, H. C., 2016, Roadside air quality and implications for control measures: A Case study of Hong Kong, Atmos. Enviro., 137, 6-16.   DOI
2 An, H. J., Han, J. H., Lee, M. H., Kang, E. H., 2015, The long-term variations of ozone and nitrogen oxides in Suwon City during 1991 2012, Kor. Atmos. Environ., 31, 378-384.   DOI
3 Carslaw, D. C., Beevers, S. D., 2004, Investigating the potential importance of primary $NO_2$ emissions in a street canyon, Atmos. Environ., 38, 3585-3594.   DOI
4 Clapp, L. J., Jenkin, M. E., 2001, Analysis of the relationship between ambient levels of $O_3$, $NO_2$ and NO as a function of $NO_x$ in the UK, Atmos. Environ., 35, 6391-6405.   DOI
5 Gupta, A., Kumar, R., Kumari, K. M., Srivastava, S. S., 2003, Measurement of $NO_2$, HN$O_3$, $NH_3$ and $SO_2$ and related particulate matter at a rural in Rampur, India, Atmos. Environ., 37, 4837-4846.   DOI
6 Han, S. H., Kim, Y. P., 2015, Long-term trends of the concentrations of mass and chemical composition in $PM_{2.5}$ over Seoul, Kor. Soc. Atmos. Environ., 31, 143-156.   DOI
7 Hatzianastassiou, N., Katsoulis, B. D., Antakis, B., 2007, Extreme nitrogen oxide and ozone concentrations in Athens atmosphere in relation to meteorological conditions, Environ. Monitor. Assess., 128, 447-464.   DOI
8 Jo, W. K., Choi, S. R., 2006, Characteristics of air pollutants concentrations near major roadways in Daegu, Environ. Sci., 15, 737-744.
9 Kobayashi, S., 2009, Roadside air pollution, Jpn. Soc. Atmos. Environ., 44, 333-334.
10 Jung, S. Y., Kim, K. H., Kim, D. H., Cho, S. J., Kim, M. Y., 2009, Long-term study on ozone concentration profiles in roadside and residential locations in Seoul, Korea, Kor. Soc. Environ. Analy., 12, 204-220.
11 Carslaw, D. C., Beevers, S. D., 2005, Development of an urban inventory for road transport emissions of $NO_2$ and comparison with estimates derived from ambient measurements, Atmos. Environ., 39, 2049-2059.   DOI
12 Laxen, D., Wilson, P., 2002, A New approach to deriving $NO_2$ from $NO_x$ for air quality assessments of roads, Air Quality Consultants Ltd., Bristol, UK, 1-14.
13 Nguyen, H. T., Kim, K. H., 2006, Comparison of spatiotemporal distribution patterns of $NO_2$ between four different types of air quality monitoring stations, Chemosphere, 65, 201-212.   DOI
14 Lewne, M., Cyrys, J., Meliefste, K., Hoek, G., Brauer, M., Fischer, P., Gehring, U., Heinrich, J., Brunekreef, B., Bellander, T., 2004, Spatial variation in nitrogen dioxide in three European areas, Sci. Total Environ., 332, 217-230.   DOI
15 Lindley, S. J., Walsh, T., 2005, Inter-comparison of interpolated background nitrogen dioxide concentrations across Greater Manchester, UK, Atmos. Environ., 39, 2709-2724.   DOI
16 Monteiro, A., Vautard, R., Borrego, C., Miranda, A. I., 2005, Long-term simulations of photo oxidant pollution over Portugal using the CHIMERE model, Atmos. Environ., 39, 3089-3101.   DOI
17 SI (Soul Institute, formerly Seoul Development Institute), 2011, Analysis of the reason for the slow reduction of nitrogen dioxide ($NO_2$) concentration and countermeasures in Seoul, Final Report, 153-154.
18 Pandey, S. K., Kim, K. H., Chung, S. Y., Cho, S. J., Kim, M. Y., Shon, Z. H., 2008, Longterm study of $NO_x$ behavior at urban roadside and background locations in Seoul, Korea, Atmos. Environ., 42, 607-622.   DOI
19 Shahgedanova, M., Burt, T. P., Davies, T. D., 1999, Carbon mo$NO_x$ide and nitrogen oxides pollution in Moscow, Water, Air, Soil Pollution, 112, 107-131.   DOI
20 Shon, Z. H., Kim, K. H., 2011, Impact of emission control strategy on $NO_2$ in urban areas of Korea, Atmos. Environ., 45, 808-812.   DOI
21 Lee, Y. K., Kim, W. S., Hong, S. M., Shin, E. S., 2014, Comparison of air pollution characteristics in the center lane-bus stop and the surrounding areas, Kor. Soc. Atmos. Environ., 30, 378-386.   DOI
22 Thorpe, A., Harrison, R. M., 2008, Sources and properties of non-exhaust particulate matter from road traffic: a review, Sci. Total Environ., 400, 270-282.   DOI
23 Soltic, P., Weilenmann, M., 2003, $NO_2$/NO emissions of gasoline passenger cars and light-duty trucks with Euro-2 emission standard, Atmos. Environ., 37, 5207-5216.   DOI
24 Stedman, J. R., Goodwin, J. W. L., King, K., Murrells, T. P., Bush, T. J., 2001, An Empirical model for predicting urban roadside nitrogen dioxide concentrations in the UK, Atmos. Environ., 35, 1451-1463.   DOI