[1] Chang Yunhua.The Effects of the Non-Agricultural NH3 Emissions on PM10 Pollution and the Source Attribution Analysis of PM2.5[D]. Beijing: Master’s Thesis of University of Chinese Academy of Sciences, 2013(in Chinese).
[2] Traffic Management Bureau of Beijing Municipal Public Security. The digital related tothebureau traffic management since 2000[EB/OL]. http://www.bjjtgl.gov.cn/jgj/ywsj/index.html, 2015(in Chinese).
[3] Cadle S H ,Nebel G J, Williams R L. Measurements of unregulated emission from General Motors’ light-duty vehicles[R]. SAE Technical Paper, 1979.
[4] Urban C M, Garbe R J. Regulated and unregulated exhaust emission from malfunctioning vehicles[R]. SAE Technical Paper, 1979.
[5] Cadle S H, Mulawa P A. Low-molecular-weight aliphatic amines in exhaust from catalyst-equipped cars[J].Environmental Science and Technology, 1980, 14(6): 718-723.
[6] Fraser M P, Cass G R. Detection of excess ammonia emissions from in-use vehicles and the implications for fine particle control[J].Environmental Science and Technology, 1998, 32(8): 1053-1057.
[7] Moeckli M A, Fierz M, Sigrist M W. Emission factors for ethane and ammonia from a tunnel study with a photoacoustic trace gas detection system[J].Environmental Science and Technology, 1996, 30(9): 2864-2967.
[8] Shelef M, Gandhi H S. Ammonia formation in the catalytic reduction of nitric oxide. III. The role of water gas shift, reduction by hydrocarbons, and steam reforming[J].Industrial & Engineering Chemistry Product Research and Development, 1974, 13(1): 80-85.
[9] Gandhi H S, Shelef. Effects of sulphur on noble metal automotive catalysts[J].Applied Catalysis, 1991, 77(2): 175-186.
[10] Burgard D A., Bishop G A, Stedman D H. Remote sensing of ammonia and sulfur dioxide from on-rode light duty vehicles[J].Environmental Science and Technology, 2006, 40(22): 7018-7022.
[11] Zhang Xuedian, Huang Xian, Xu Kexin. Novel analysis algorithms for differential optical absorption spectroscopy for pollution monitoring[J].Spectroscopy and Spectral Analysis, 2007, 27(11): 2367-2370(in Chinese).
[12] Fu Qiang, Xie Pinhua, Wang Ruibin. The comparison test with DOAS and traditional sampler for air quality monitoring methods[J].Environmental Monitoring in China, 2003, 19(2): 26-28(in Chinese).
[13] Svante W, Huang Zhaokai, Fan Haihua. Using differential optical absorption spectroscopy (DOAS) for continuous emission monitoring and process gases[J].Journal of Environmental Engineering Technology, 2011, 1(1): 38-45(in Chinese).
[17] Huang Zhihui, Chen Weicheng,et al. The amount of vehicle emission by “China Vehicle Emission Control Annual Report in 2013”[J]. Environment and Sustainable Development, 2014, 39(1): 91-9(in Chinese).
[18] Cheng Ke, Xue Zhigang, Zhang Zengqiang,et al. The study on the construction of emission inventory for air pollutants of motor vehicle[J]. Environmental Pollution and Control, 2009, 31(9): 76-81(in Chinese).
[19] Chen Yonglin, Cao Xiaochun, Wu Liuliu,et al. The calculation method of exhaust emissions of automobile[J]. Journal of Zhejiang Institute of Communications, 2009, 10(3): 20-25(in Chinese).
[20] Zhang Shaojun.Characteristics and Control Strategies of Vehicle Emissions in Typical Cities of China[D]. Beijing: Doctorial Dissertation of Tsinghua University, 2014(in Chinese).
[21] Cai Hao, Xie Shaodong. Determination of emission factors from motor vehicles under different emission standards in China[J].Acta Scientiarum Naturalium Universitatis Pekinensis, 2010, 4(3): 319-32(in Chinese).
[22] Yao Zhiliang, Wang Qidong, Wang Xintong,et al. An emission inventory of unconventional pollutant of vehicle in typical urbans[J]. Environmental Pollution and Control, 2011, 33(3): 96-101(in Chinese).
[23] Yan Han.Characterazing Emissions and Curb Concentrations of Vehicular Pollutants for Typical Roads in Beijing[D]. Beijing: Master’s thesis of Tsinghua University, 2014(in Chinese).
