The predicted level of atmospheric air pollution in the city area affected by highways
- Details
- Category: Environmental safety, labour protection
- Last Updated on 02 April 2016
- Published on 02 April 2016
- Hits: 5027
Authors:
M.M. Biliaiev, Dr. Sci. (Tech.), Professor, Dnipropetrovsk National University of Railway Transport named after Academician V. Lazaryan, Dnipropetrovsk, Ukraine
T.I. Rusakova, Cand. Sci. (Tech.), Oles Honchar Dnipropetrovsk National University, Dnipropetrovsk, Ukraine
V.Ye. Kolesnik, Dr. Sci. (Tech.), Professor, State Higher Educational Institution “National Mining University”, Professor of the Ecology Department, Dnipropetrovsk, Ukraine.
A.V. Pavlichenko, Cand. Sci. (Biol.), Associate Professor, State Higher Educational Institution “National Mining University”, Associate Professor of the Ecology Department, Dnipropetrovsk, Ukraine,
Abstract:
Purpose. The development of the methodology for at-mospheric air pollution assessment in the zone affected by city highways, which is based on the equation of detached flow of inviscid fluid and considers the dwellings zone peculiarities as well as the natural laws of chemical transformations of air pollutants.
Methodology. The predicted level of atmospheric air pollution in the city area located near highways and affected by automotive pollutants is reasoned by the joint solution of hydrodynamic equation of field of velocities for wind flow estimation in the highway area and the problem of admixture transfer in the atmosphere. To estimate the field of velocities for wind flow the method of incompressible frictionless vortex-type flow was applied. The natural laws of admixture transfer in the atmosphere were established by means of convection and diffusive transfer of admixture and its chemical transformation in the atmosphere. The predicted concentration of pollutants was estimated by means of numerical si-mulation on computational straight-line graticube using the method of labeling of rated operating conditions based on the alternating triangular difference scheme.
Findings. The developed methodology enables efficient prediction of atmospheric air pollution levels by automotive pollutants in case of buildings and highway arrangement of street canyon type and considering the chemical transformations of pollutants. The application of the developed numerical model enabled the establishment of the nitrogen dioxide concentrations dynamics in the air near the buildings adjacent to the highway. The comparative analysis for nitrogen dioxide concentrations changes relative to its maximum permissible concentration in the atmosphere and its annual average was carried out.
Originality. The methodology for atmospheric air pollution levels assessment at the different distances from a highway was developed. It allows considering the natural laws of chemical transformations of air pollutants as well as the effect of dwellings zone peculiarities on their dispersion.
Practical value. The developed prognostic methodology can be used for the planning of highways in new city districts as well as for the calculations of old highways reconstruction requiring consideration of different types of buildings and highways arrangement under the definite meteorological conditions. The obtained laws of pollutants dispersion at the different distances from a highway should be considered for the timely adoption of the nature-conservative measures.
References:
1. Kim, J.J., Smorodinsky, S., Lipsett M., Singer, B.C., Hodgson, A.T. and Ostro, B., 2004. Traffic-related air pollution near busy roads: the East Bay children's respiratory study. American Journal of Respiratory and Critical Care Medicine, 170 (5), pp. 520−526.
2. Чуваєв П.І. Вплив автомобільного транспорту на навколишнє середовище / П.І. Чуваєв // Вісник Національного транспортного університету. – К.: НТУ – 2013. – № 27. – С. 380−383.
Chuvaev, P.I., 2013. Influence of motor transport on environment, Visnyk Natsionalnoho Transportnoho Universutetu, 27, pp. 380−383.
3. Жуков М.Н. Метод підвищення детальності просторового розподілу забруднення (на прикладі Київської агломерації) / М.Н. Жуков, І.Р. Стахів // Науковий вісник Національного гірничого університету. – 2014. – №1. – С. 113−118.
Zhukov, M.N., Stakhiv, I.R., 2014. The method of detalization of pollution spatial distribution (on the example of Kiev metropolitan area), Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 1, pp. 113−118.
4. Sider, T., Hatzopoulou, M., Eluru, N., Goulet-Langlois, G. and Manaugh, K., 2015. Smog and socio-economics: An evaluation of equity in traffic-related air pollution generation and exposure. Environment and Planning B: Planning and Design, Vol. 42, pp. 870−887.
5. Beckerman, B., Jerrett, M., Brook, J.R., Verma, D.K., Arain, M.A. and Finkelstein, M., 2008. Correlation of nitrogen dioxide with other traffic pollutants near a major expressway, Atmospheric Environment, 42, pp. 275−290.
6. Kessler, Ch., Niederau, A. and Scholz, W., 2006. Estimation of NO2/NOx relations of traffic emissions in Baden-Wurttemberg from 1995 to 2005. In: 2 conf. Environment Transport, incl. 15th conf. Transport and Pollution. Reims, France, 12−14 June, no. 107, Vol. 2, pp. 101−105.
7. Abo-Qudais, S. and Abu Qdais, H., 2005. Performance evaluation of vehicles emissions prediction models. Clean Technologies and Environmental Policy, no. 7, pp. 279−284.
8. Hatzopoulou, M., and Miller, E. J., 2010. Linking an activity-based travel demand model with traffic emission and dispersion models: Transport's contribution to air pollution in Toronto. Transportation Research Part D: Transport and Environment, 15(6), pp. 315−325.
9. Denby, Br., Douros, I. and Fragkou, L., 2011. Modelling of Nitrogen Dioxide (NO2) for air quality assessment and plan-ning relevant to the European Air Quality Directive. ETC/ ACM Technical Paper, 15, pp. 167−174.
10. Sathe Yogesh, V., 2004. Air quality modeling in street canyons of Kolhapur City, Maharashtra, India, Universal J. of Environmental Research and Technology, no. 2, vol. 2, pp. 97−105.
2016_01_biliaiev | |
2016-04-02 498.59 KB 1068 |
Older news items:
- Formation of water-physical properties of soil in recultivated areas - 02/04/2016 21:41
- Justification of the parameters of the information system assuring the underground mining safety - 02/04/2016 21:37
- Satellite technology of the forest fires effects monitoring - 02/04/2016 21:34
- The kinetics of the methane acidification by the oxygen and its role in the blast air wave formation in mine workings - 02/04/2016 21:28