JpGU-AGU Joint Meeting 2017

Presentation information

[EE] Poster

A (Atmospheric and Hydrospheric Sciences) » A-AS Atmospheric Sciences, Meteorology & Atmospheric Environment

[A-AS05] [EE] Contributions of local and long-range transport to air pollutants in mega-cities

Thu. May 25, 2017 1:45 PM - 3:15 PM Poster Hall (International Exhibition Hall HALL7)

convener:Hongliang Zhang(Louisiana State University), Jianlin Hu(NUIST Nanjing University of Information Science and Technology), Sri Harsha Kota(Indian Institute of Technology Guwahati), Jia Xing(Tsinghua University)

[AAS05-P13] High Resolution vehicular emissions inventory in Shanghai China: Application of VEIN model

*Sergio Ibarra Espinosa1, Rita Yuri Ynoue1, Maria de Fátima Andrade1 (1.Universidade de São Paulo)

Keywords:REMI, Emissions Inventory, Air Pollution

Accelerated industrial development of Shanghai, China, lead to a large number of vehicles into the streets, generating critical levels of pollution that remains high nowadays. This is the biggest city in China, in commercial and industrial aspects, with more than 20 millions urban habitants, which produced an intense demand of public and private transport. Air pollutant concentrations persistently remains high with risk to health of population (http://semc.gov.cn/aqi/home/English.aspx, Environmental Service of Shanghai). This study presents a bottom-up vehicular emissions inventory with the R EMission Inventory (REMI) Package (Ibarra et al, 2017a) for the mega city of Shangai. REMI is package wrote in R language that estimates vehicular emissions inventory considering exhaust, cold-start, evaporative, dust resuspension and wear emissions. The road network (Figure 1) of Open Street Map is used as input, identifying the type of street, to perform a spatial traffic interpolation as shown by Ibarra et al (2017b). This approach assumes high density of light duty vehicles in downtown, and in contrast, less density of trucks in downtown. The emission factors used are COmputer Programme to calculate Emissions from Road Transport (COPERT) with an euro equivalency as shown by Wang et al (2010). Nevertheless, REMI offer the option to use local emission factors or a merge between local and COPERT emission factors. The age distribution is very important, so it was assumed that all vehicles were in circulation till 40 years of use. REMI is also suitable for cities with limitation of data, as showed by Ibarra et al (2017b) because it interpolates traffic and assign it into the road network directly. REMI outputs consists in vehicular emission with high spatial and temporal resolution, with hourly emissions at street level. This study will consider a detailed perspective of vehicles, including the use of motorcycles and it will be compared with Wang et al (2008). The resulting estimation will give detailed pollutant for each road, hour of the day and day of the week, allowing investigation of vehicular emissions for the biggest city of China.

Ibarra-Espinosa, S. and Ynoue, R. 2017a: REMI - An R package for traffic emissions modelling. Environmental Modelling & Software. Paper submitted.

Ibarra-Espinosa, S. and Ynoue, R. 2017b: Remi model: Bottom-up emissions inventories for cities with lack of data. Journal of Earth Sciences and Geotechnical Engineering. 7: 277–288. ISSN 1792-9040

Haikun Wang, Changhong Chen, Cheng Huang, Lixin Fu. 2008: On-road vehicle emission inventory and its uncertainty analysis for Shanghai, China, Science of The Total Environment, Volume 398, Issues 1–3, pages 60-67. doi:http://dx.doi.org/10.1016/j.scitotenv.2008.01.038.
Haikun Wang, Lixin Fu, Yu Zhou, Xuan Du, Weihua Ge. 2010: Trends in vehicular emissions in China's mega cities from 1995 to 2005. Environmental Pollution, Volume 158, Issue 2, pages 394-400.