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Journal of Zhejiang University SCIENCE A 2014 Vol.15 No.9 P.753-760

http://doi.org/10.1631/jzus.A1400013


Scenarios for vehicular air pollutant emissions abatement: a case study in Hangzhou, China*


Author(s):  Qing-yu Zhang, Xin-xing Li, Wei-li Tian, Ang-yi Fu, Wei-fei Du, Cui Wang

Affiliation(s):  . Department of Environmental Engineering, Ecological Civilization Research Center, Zhejiang University, Hangzhou 310058, China

Corresponding email(s):   wangcui198506@163.com

Key Words:  Control policy, Emission abatement, Scenario analysis, Vehicular pollution


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Qing-yu Zhang, Xin-xing Li, Wei-li Tian, Ang-yi Fu, Wei-fei Du, Cui Wang. Scenarios for vehicular air pollutant emissions abatement: a case study in Hangzhou, China[J]. Journal of Zhejiang University Science A, 2014, 15(9): 753-760.

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Abstract: 
Motor vehicles are the major source of urban air pollution. The abatement of air pollutant emissions is an urgent task for environmental protection. This paper simulated the abatement for carbon monoxide (CO), volatile organic compounds (VOCs), nitrogen oxides (NO x ), and particular matter (PM) emissions from vehicles under four scenarios in the year 2015 in Hangzhou, China. It was found that the emissions of CO, VOCs, NO x , and PM from vehicles were 440.551, 23.079, 44.255, and 6.532 kt/a in 2010 in Hangzhou, respectively. The vehicle population will increase to over 1.2 million with a 60.7% growth rate until 2015 (estimated). Based on the scenario analysis, it was found that eliminating substandard vehicles and upgrading vehicle’s standards could help reduce CO and VOCs effectively, while the expected abatement of NO x and PM would be offset by the rapid increase in the vehicle numbers. It was also found that integrated measurements, including eliminating substandard vehicles, upgrading vehicle standards, supplying low sulfur oil, and introducing alternative fuel vehicles could simultaneously reduce the four key pollutants. These integrated policies make it possible to reduce 250.197, 10.270, 1.791, and 0.335 kt/a CO, VOCs, NO x , and PM with 56.79%, 44.50%, 4.05%, and 5.14% decrease rates in 2015, respectively, when compared to those in 2010.

杭州市机动车污染物排放的减排情景研究

研究目的:预测机动车保有量;根据机动车污染特征,预测机动车污染物排放量;评估不同管理措施下机动车污染物的削减效果。
创新要点:综合不同管理措施,整合评价多种管理措施并行条件下,机动车污染物排放量的削减情况。
研究方法:通过长期能源替代计划(LEAP)模型对机动车保有量进行预测,相关排放因子采用校正的能源替代(AER)模型进行估算。最后设计四个情景模式,评估不同情景的减排效果,并与基础情景进行对比。
重要结论:1. 至2015年杭州市机动车将增长60.7%。2. 淘汰超标机动车和提高机动车污染排放标准能有效控制CO和VOCs,而对NOx和PM的总量削减效果不明显。3. 采用多种控制手段,如淘汰劣化超标机动车、提高机动车排放标准、提供低硫代燃油及引进能源替换型机动车将大大减少机动车污染物的排放量。
削控策略;减排;情景分析;机动车保有量

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

References

[1] Beydoun, M., Guldmann, J.M., 2006. Vehicle characteristics and emissions: logit and regression analyses of I/M data from Massachusetts, Maryland, and Illinois. Transportation Research Part D: Transport and Environment, 11(1):59-76. 


[2] Chae, Y., 2010. Co-benefit analysis of an air quality management plan and greenhouse gas reduction strategies in the Seoul metropolitan area. Environmental Science & Policy, 13(3):205-216. 


[3] Che, W.W., Zheng, J.Y., Zhong, L.J., 2009. Vehicle exhausts emission characteristics and contributions in the Pearl River Delta Region. Research of Environmental Sciences, (in Chinese),22:456-461. 

[4] EPA (Environmental Protection Agency), 2001. Fuel sulfur effects on exhaust emissions, recommendations for MOBILE6. , Available from http://www.epa.gov/OMSWWW/models/mobile6/m6tech.htm,EPA 420-R-01-039, USA,:

[5] Feng, S., He, H., Sharpe, B., 2011. Overview of China’s vehicle emission control program past successes and future prospects. , Available from http://www.theicct.org/sites/default/files/3_NVstandards.pdf,:

[6] Guo, H., Zhang, Q.Y., Shi, Y., 2006. Characterization of on-road CO, HC and NO emissions for petrol vehicle fleet in China city. Journal of Zhejiang University-SCIENCE B, 7(7):532-541. 


[7] Guo, H., Zhang, Q.Y., Shi, Y., 2007. Estimation of motor vehicle air toxic emissions in urban area of Hangzhou, China. Journal of Zhejiang University (Engineering Science), (in Chinese),41:1223-1228. 

[8] Guo, H., Zhang, Q.Y., Shi, Y., 2007. Evaluation of the international vehicle emission (IVE) model with on-road remote sensing measurements. Journal of Environmental Sciences, 19(7):818-826. 


[9] Guo, H., Zhang, Q.Y., Shi, Y., 2007. On-road remote sensing measurements and fuel-based motor vehicle emission inventory in Hangzhou, China. Atmospheric Environment, 41(14):3095-3107. 


[10] Hao, H., Wang, H., Yi, R., 2011. Hybrid modeling of China’s vehicle ownership and projection through 2050. Energy, 36(2):1351-1361. 


[11] Hao, J., Wu, Y., Fu, L., 2001. Motor vehicle source contributions to air pollutants in Beijing. Environmental Science, 22:1-6. 

[12] Hu, X.J., Chang, S.Y., Li, J.J., 2010. Energy for sustainable road transportation in China: challenges, initiatives and policy implications. Energy, 35(11):4289-4301. 


[13] ICCT (International Council on Clean Transportation), 2009. EU 2020 Vehicle Targets. , Available from http://www.theicct.org/spotlight/eu-2020-vehicle-targets,:

[14] Kumar, A., Bhattacharya, S., Pham, H., 2003. Greenhouse gas mitigation potential of biomass energy technologies in Vietnam using the long range energy alternative planning system model. Energy, 28(7):627-654. 


[15] Li, M.L., Nie, Y.X., Guo, X.X., 2009. Emission test and comparison between hybrid electric bus and conventional bus. Automobile Technology, (in Chinese),2009(10):51-54. 

[16] Nurrohim, A., Sakugawa, H., 2005. Fuel-based inventory of NO x and SO2 emission from motor vehicles in the Hiroshima Prefecture, Japan. Applied Energy, 80(3):291-305. 


[17] Oxley, T., Elshkaki, A., Kwiatkowski, A., 2012. Pollution abatement from road transport cross-sectoral implications, climate co-benefits and behavioral change. Environmental Science & Policy, 19-20:16-32. 


[18] Saikawa, E., Kurokawa, J., Takigawa, M., 2011. The impact of China’s vehicle emissions on regional air quality in 2000 and 2020: a scenario analysis. Atmospheric Chemistry and Physics, 11(18):9465-9484. 


[19] Sathaye, J., Murtisshaw, S., Price, L., 2004. Multi project baselines for evaluation of electric power projects. Energy Policy, 32(11):1303-1317. 


[20] SEI-B (Stockholm Environment Institute-B), 2011. Long-range energy alternatives planning system user guide. , Available from: http://sei-us.org/leap/,:

[21] SEPA (State Environmental Protection Administration of China), 2011. China vehicle emission control annual report. , Available from http://www.zhb.gov.cn/gkml/hbb/qt/201112/t20111219_221495.htm,(in Chinese),:

[22] Song, G., Yu, L., Mo, F., 2007. A comparative environmental study on the emissions of HEV and conventional gasoline vehicle. Automotive Engineering, (in Chinese),29:865-869. 

[23] Wang, A.J., Ge, Y.S., Tan, J.W., 2011. On-road pollutant emission and fuel consumption characteristics of buses in Beijing. Journal of Environmental Sciences, 23(3):419-426. 


[24] Wang, H.K., Fu, L.X., Bi, J., 2011. CO2 and pollutant emissions from passenger cars in China. Energy Policy, 39(5):3005-3011. 


[25] Wu, Y., Wang, R.J., Zhou, Y., 2011. On-road vehicle emission control in Beijing: past, present, and future. Environmental Science & Technology, 45(1):147-153. 


[26] Zhang, Q.Y., Wei, Y.M., Tian, W.Y., 2008. GIS-based emission inventories of urban scale: a case study of Hangzhou, China. Atmospheric Environment, 42(20):5150-5165. 


[27] Zhang, Q.Y., Xu, J.F., Wang, G., 2008. Vehicle emission inventories projection based on dynamic emission factors: a case study of Hangzhou, China. Atmospheric Environment, 42(20):4989-5002. 


[28] Zhang, Q.Y., Tian, W.L., Zheng, Y.Y., 2010. Fuel consumption from vehicles of China until 2030 in energy scenarios. Energy Policy, 38(11):6860-6867. 


[29] ZJPDRC (Zhejiang Province Development and Reform Commission), 2012. Hangzhou 12th Five-Year National Economic and Social Development Plan. , Available from http://www.zjdpc.gov.cn/art/2012/10/30/art_95_363287.html,(in Chinese),:


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