留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

道路扬尘检测方法研究进展

李冬 陈建华 张月帆 高健 张凯 竹双

李冬, 陈建华, 张月帆, 高健, 张凯, 竹双. 道路扬尘检测方法研究进展[J]. 环境工程技术学报, 2021, 11(3): 537-545. doi: 10.12153/j.issn.1674-991X.20200213
引用本文: 李冬, 陈建华, 张月帆, 高健, 张凯, 竹双. 道路扬尘检测方法研究进展[J]. 环境工程技术学报, 2021, 11(3): 537-545. doi: 10.12153/j.issn.1674-991X.20200213
LI Dong, CHEN Jianhua, ZHANG Yuefan, GAO Jian, ZHANG Kai, ZHU Shuang. Research progress of detection methods of road dust[J]. Journal of Environmental Engineering Technology, 2021, 11(3): 537-545. doi: 10.12153/j.issn.1674-991X.20200213
Citation: LI Dong, CHEN Jianhua, ZHANG Yuefan, GAO Jian, ZHANG Kai, ZHU Shuang. Research progress of detection methods of road dust[J]. Journal of Environmental Engineering Technology, 2021, 11(3): 537-545. doi: 10.12153/j.issn.1674-991X.20200213

道路扬尘检测方法研究进展

doi: 10.12153/j.issn.1674-991X.20200213
详细信息
    作者简介:

    李冬(1994—),男,硕士研究生,主要从事大气环境化学研究,1161442798@qq.com

    通讯作者:

    陈建华 E-mail: chenjh@craes.org.cn

Research progress of detection methods of road dust

More Information
    Corresponding author: CHEN Jianhua E-mail: chenjh@craes.org.cn
  • 摘要: 道路扬尘是城市大气颗粒物的主要来源之一,为改善城市环境空气质量、降低大气颗粒物浓度,必须采取有效措施控制道路扬尘。确定道路扬尘检测方法是控制道路扬尘的关键一步,完善和发展当前道路扬尘检测方法对有效削减城市道路扬尘排放量、精准治理道路扬尘具有重要意义。通过实证分析等方法,研究了当前国内外主要的道路扬尘排放的检测方法(降尘法、AP-42法和TRAKER法)以及主要的道路环境监测方法(道路扬尘微观站监测法和大气环境移动监测车监测法)。对不同道路扬尘检测方法的原理、特点及应用进行综述和对比,指出当前的道路扬尘检测方法均具有各自的优点和局限性,地方政府和科研人员需要结合研究目的及技术成本等因素考虑选择合适的检测方法,进一步制定标准化采样方法并完善相应标准,从而实现城市道路扬尘的精准检测。

     

  • [1] SAIKAWA E, KUROKAWA J, TAKIGAWA M, et al. The impact of China’s vehicle emissions on regional air quality in 2000 and 2020:a scenario analysis[J]. Atmospheric Chemistry and Physics, 2011, 11(18):9465-9484.
    doi: 10.5194/acp-11-9465-2011
    [2] 方国浩, 范明志, 盛利平. 道路扬尘污染源分析和治理方式[J]. 商用汽车, 2008(9):86-89.

    FANG G H, FAN M Z, SHENG L P. A study on pollution of road dust and emission and solutions[J]. Commercial Vehicle, 2008(9):86-89.
    [3] 颜敏. 首尔市大气污染治理经验及借鉴[J]. 环境科学导刊, 2018, 37(4):6-9.

    YAN M. Experience and enlightenment of air pollution control in Seoul City[J]. Environmental Science Survey, 2018, 37(4):6-9.
    [4] CLAIBORN C, MITRA A, ADAMS G, et al. Evaluation of PM10 emission rates from paved and unpaved roads using tracer techniques [J]. Atmospheric Environment, 1995, 29(10):1075-1089.
    doi: 10.1016/1352-2310(95)00046-2
    [5] ZIMMER R A, REESER W K, CUMMINS P. Evaluation of PM 10 emission factors for paved streets [M]// CHOW J C, ONO D M. PM10 standards and nontraditional particulate source controls. Pittsburgh, PA: Air Waste Management Association, 1992:311-323.
    [6] 江澜. 邯郸市城市道路尘来源解析及对策研究[J]. 山西建筑, 2011, 37(5):208-209.

    JIANG L. On analysis of dust origins of urban roads in Handan and their strategies[J]. Shanxi Architecture, 2011, 37(5):208-209.
    [7] 许妍, 周启星. 天津城市交通道路扬尘排放特征及空间分布研究[J]. 中国环境科学, 2012, 32(12):2168-2173.

    XU Y, ZHOU Q X. Emission characteristics and spatial distribution of road fugitive dust in Tianjin,China[J]. China Environmental Science, 2012, 32(12):2168-2173.
    [8] 侯益铭, 叶泽甫, 竹涛. 铺装道路扬尘研究现状[C]// 《环境工程》2019年全国学术年会论文集. 北京: 《环境工程》编辑部, 2019:388-392.
    [9] 翟绍岩, 乐群, 魏海萍, 等. 扬尘估算的采样方法对比[J]. 环境科学与管理, 2007, 32(11):122-124.

    ZHAI S Y, YUE Q, WEI H P, et al. The comparison of field sampling methods for dust emission estimating[J]. Environmental Science and Management, 2007, 32(11):122-124.
    [10] 朱振宇, 张诗建, 张亚飞, 等. 道路交通扬尘采样方法研究进展[J]. 环境与可持续发展, 2014, 39(1):41-45.

    ZHU Z Y, ZHANG S J, ZHANG Y F, et al. Research progress on the sampling methods of road traffic dust[J]. Environment and Sustainable Development, 2014, 39(1):41-45.
    [11] MATHISSEN M, SCHEER V, KIRCHNER U, et al. Non-exhaust PM emission measurements of a light duty vehicle with a mobile trailer[J]. Atmospheric Environment, 2012, 59:232-242.
    doi: 10.1016/j.atmosenv.2012.05.020
    [12] 何月欣. 基于AP-42方法的东北三省道路扬尘排放清单研究[D]. 长春: 中国科学院大学(中国科学院东北地理与农业生态研究所), 2018.
    [13] ETYEMEZIAN V, KUHNS H, GILLIES J, et al. Vehicle-based road dust emission measurement:Ⅰ.methods and calibration[J]. Atmospheric Environment, 2003, 37(32):4559-4571.
    doi: 10.1016/S1352-2310(03)00528-4
    [14] CLAIBORN C, MITRA A, ADAMS G, et al. Evaluation of PM 10 emission rates from paved and unpaved roads using tracer techniques [J]. Atmospheric Environment, 1995, 29(10):1075-1089.
    doi: 10.1016/1352-2310(95)00046-2
    [15] JONES T E. Dust emission from unpaved roads in Kenya[R]. Crowthorne:Transport and Road Research Laboratory, 1984.
    [16] 王帅杰, 朱坦, 洪刚. 石家庄市地面起尘量估算方法[J]. 城市环境与城市生态, 2003, 16(6):248-250.

    WANG S J, ZHU T, HONG G. Evaluating particulate emission inventory from ground surfaces in Shijiazhuang City[J]. Urban Environment & Urban Ecology, 2003, 16(6):248-250.
    [17] 秦伟. 基于降尘法的石家庄市夏冬两季道路扬尘排放特征研究[D]. 石家庄: 河北科技大学, 2019.
    [18] 王士宝, 姬亚芹, 张伟, 等. 乌鲁木齐道路扬尘PM 2.5粒度乘数特征 [J]. 环境科学研究, 2018, 31(7):1201-1206.

    WANG S B, JI Y Q, ZHANG W, et al. PM 2.5 particle size multiplier feature of road dust in Urumqi City [J]. Research of Environmental Sciences, 2018, 31(7):1201-1206.
    [19] Airborne Particles Expert Group. Source apportionment of airborne particulate matter in the United Kingdom[R]. Wokingham:Transport Research Laboratory, 1999:1-10.
    [20] DRING I, JACOB J, LOHMEYER A, et al. Estimation of the “non exhaust pipe” PM 10 emissions of streets for practical traffic air pollution modelling [C]// STURM P,MINARIKP S.Proceedings of the 11th International Symposium,Transport and Air Pollution. Graz: Graz University of Technology, 2002:309-316.
    [21] 王凯, 樊守彬, 孙改红, 等. 北京市延庆区道路扬尘排放特征及影响因素[J]. 环境工程技术学报, 2019, 9(1):1-7.

    WANG K, FAN S B, SUN G H, et al. Emission characteristics and impact factors of road fugitive dust in Yanqing District,Beijing City[J]. Journal of Environmental Engineering Technology, 2019, 9(1):1-7.
    [22] 吴丽萍, 文科军. 机动车行驶过程道路扬尘影响因素试验研究[J]. 环境科学与管理, 2008, 33(12):34-36,80.

    WU L P, WEN K J. Study on the effective factors of road dust during motor vehicle runing[J]. Environmental Science and Management, 2008, 33(12):34-36,80.
    [23] COWHERD J C, ENGLEHART P J. Paved road particulate emissions[R]. Washington DC:US Environmental Protection Agency, 1984:8-30.
    [24] US EPA. Emission factor documentation for AP-42,section 13.2.1 paved roads[R]. Washington DC:Office of Air Quality Planning and Standards,US Environmental Protection Agency, 2011:1-13.
    [25] 亓浩雲, 樊守彬, 王凯. 北京市不同功能区冬季道路扬尘排放特征[J]. 环境工程技术学报, 2020, 10(3):323-329.

    QI H Y, FAN S B, WANG K. Characteristics of dust emissions from roads in different functional areas of Beijing[J]. Journal of Environmental Engineering Technology, 2020, 10(3):323-329.
    [26] 竹涛, 李冉冉, 李笑阳, 等. 北京市道路扬尘时空变化特征的研究[J]. 环境污染与防治, 2016, 38(12):38-42.

    ZHU T, LI R R, LI X Y, et al. Research on temporal-spatial variation characteristics of road dust in Beijing City[J]. Environmental Pollution & Control, 2016, 38(12):38-42.
    [27] 许妍, 周启星. 天津城市交通道路扬尘排放特征及空间分布研究[J]. 中国环境科学, 2012, 32(12):2168-2173.

    XU Y, ZHOU Q X. Emission characteristics and spatial distribution of road fugitive dust in Tianjin,China[J]. China Environmental Science, 2012, 32(12):2168-2173.
    [28] 张伟, 姬亚芹, 李树立, 等. 天津市春季典型道路积尘负荷分布特征[J]. 中国环境监测, 2018, 34(1):54-59.

    ZHANG W, JI Y Q, LI S L, et al. The distribution characteristics of silt loading of typical roads in Tianjin during spring[J]. Environmental Monitoring in China, 2018, 34(1):54-59.
    [29] 彭康, 杨杨, 郑君瑜, 等. 珠江三角洲地区铺装道路扬尘排放因子与排放清单研究[J]. 环境科学学报, 2013, 33(10):2657-2663.

    PENG K, YANG Y, ZHENG J Y, et al. Emission factor and inventory of paved road fugitive dust sources in the Pearl River Delta Region[J]. Acta Scientiae Circumstantiae, 2013, 33(10):2657-2663.
    [30] 樊守彬, 田刚, 程水源. 移动式路面尘负荷测试系统及应用[J]. 环境科学与技术, 2012, 35(3):139-142.

    FAN S B, TIAN G, CHENG S Y. Spatial distributions of road silt loading based on mobile monitoring system[J]. Environmental Science & Technology, 2012, 35(3):139-142.
    [31] 黄玉虎, 李东晨, 秦建平, 等. 道路积尘湿式采样器研发与测试评价[J]. 环境工程学报, 2017, 11(3):1975-1980.

    HUANG Y H, LI D C, QIN J P, et al. Developing and test evaluating of wet road dust sampler[J]. Chinese Journal of Environmental Engineering, 2017, 11(3):1975-1980.
    [32] CHEN J H, ZHENG H F, WANG W, et al. Resuspension method for road surface dust collection and aerodynamic size distribution characterization[J]. China Particuology, 2006, 4(6):300-303.
    doi: 10.1016/S1672-2515(07)60279-6
    [33] 樊守彬, 杨涛, 王凯, 等. 道路扬尘排放因子建立方法与应用[J]. 环境科学, 2019, 40(4):1664-1669.
    doi: 10.1021/es051251g

    FAN S B, YANG T, WANG K, et al. Methods and application of road fugitive dust emission factor localization[J]. Environmental Science, 2019, 40(4):1664-1669. doi: 10.1021/es051251g
    [34] 张伟, 姬亚芹, 李树立, 等. 天津市春季样方法道路扬尘PM 2.5粒度乘数特征 [J]. 中国环境科学, 2016, 36(7):1955-1959.

    ZHANG W, JI Y Q, LI S L, et al. PM 2.5 size multiplier feature of road dust in Tianjin during spring with quadrat sampling method [J]. China Environmental Science, 2016, 36(7):1955-1959.
    [35] KUHNS H, ETYEMEZIAN V, LANDWEHR D, et al. Testing re-entrained aerosol kinetic emissions from roads:a new approach to infer silt loading on roadways[J]. Atmospheric Environment, 2001, 35(16):2815-2825.
    doi: 10.1016/S1352-2310(01)00079-6
    [36] ETYEMEZIAN V, KUHNS H, CHOW J, et al. Using TRAKER to understand spatial and temporal trends in road dust emissions:the treasure valley road dust study[J]. Atmospheric Environment, 2003, 37:4559-4571.
    doi: 10.1016/S1352-2310(03)00528-4
    [37] KUHNS H, ETYEMEZIAN V, GREEN M, et al. Vehicle-based road dust emission measurement:Part Ⅱ.effect of precipitation,wintertime road sanding,and street sweepers on inferred PM 10 emission potentials from paved and unpaved roads [J]. Atmospheric Environment, 2003, 37(32):4573-4582.
    doi: 10.1016/S1352-2310(03)00529-6
    [38] ETYEMEZIAN V, KUHNS H, NIKOLICH G. Precision and repeatability of the TRAKER vehicle-based paved road dust emission measurement[J]. Atmospheric Environment, 2006, 40(16):2953-2958.
    doi: 10.1016/j.atmosenv.2005.12.042
    [39] KUHNS H, GILLIES J, ETYEMEZIAN V, et al. Spatial variability of unpaved road dust PM 10 emission factors near El Paso,Texas [J]. Journal of the Air & Waste Management Association, 2005, 55(1):3-12.
    [40] ZHU D Z, KUHNS H D, BROWN S, et al. Fugitive dust emissions from paved road travel in the Lake Tahoe Basin[J]. Journal of the Air & Waste Management Association, 2009, 59(10):1219-1229.
    [41] EDVARDSSON K, MAGNUSSON R. Monitoring of dust emission on gravel roads:development of a mobile methodology and examination of horizontal diffusion[J]. Atmospheric Environment, 2009, 43(4):889-896.
    doi: 10.1016/j.atmosenv.2008.10.052
    [42] 黄玉虎, 李钢, 杨涛, 等. 道路扬尘评估方法的建立和比较[J]. 环境科学研究, 2011, 24(1):27-32.

    HUANG Y H, LI G, YANG T, et al. Establishment and comparison of evaluation methods for fugitive road dust[J]. Research of Environmental Sciences, 2011, 24(1):27-32.
    [43] 张诗建, 姬亚芹, 朱振宇, 等. 机动车车速对道路交通扬尘排放特征的影响[J]. 环境污染与防治, 2016, 38(4):82-84.

    ZHANG S J, JI Y Q, ZHU Z Y, et al. Influence on emission charactreistics of road traffic dust caused by vehicle speed[J]. Environmental Pollution & Control, 2016, 38(4):82-84.
    [44] 郭硕. 石家庄市道路扬尘排放特征研究[D]. 石家庄: 河北科技大学, 2018.
    [45] MARSDEN G, BELL M C. Road traffic pollution monitoring and modelling tools and the UK national air quality strategy[J]. Local Environment, 2001, 6(2):181-197.
    doi: 10.1080/13549830120052818
    [46] US Environmental Protection Agency. EPA history:clean air act of 1970/1977[EB/OL].( 2018-08-08)[ 2020-05-31]. https://www.epa.gov/history/epa-history-clean-air-act-19701977.
    [47] A summary for transportation programs and provisions of the clean air act amendments of 1990:FHWA-PD-92-023[S]. Washington DC: US Department of Transportation,Federal Highway Administration,1992.
    [48] HOWITT A M, MOORE E M. Linking transportation and air quality planning:implementation of the transportation conformity regulations in 15 nonattainment areas[R]. Washington DC:US Environmental Protection Agency, 1999.
    [49] New Zealand Ministry of Transport. Land transport management act 2003: 2003 No 118[S]. Wellington: New Zealand Ministry of Transport,2003.
    [50] 梁文艳, 孙德智, 黄珊. 编制城市交通道路环境空气质量监测技术规范的探讨[J]. 环境科学研究, 2010, 23(5):581-586.

    LIANG W Y, SUN D Z, HUANG S. Discussion of the compilation of technical specifications for monitoring air quality of urban typical traffic roads[J]. Research of Environmental Sciences, 2010, 23(5):581-586.
    [51] 熊新竹, 陶双成, 高硕晗, 等. 国外道路环境空气质量监测技术体系建设经验及对我国的启示[J]. 交通运输研究, 2019, 5(3):25-33.

    XIONG X Z, TAO S C, GAO S H, et al. Experience of foreign road environmental air quality monitoring technology system construction and its enlightenment to China[J]. Transport Research, 2019, 5(3):25-33.
    [52] 秦孝良, 侯鲁健, 高健, 等. 基于移动传感器的城市道路颗粒物污染特征[J]. 中国环境科学, 2020, 40(3):948-955.

    QIN X L, HOU L J, GAO J, et al. Pollution characteristics of particulate matter in urban roads:high spatial and temporal resolution monitoring based on mobile sensors[J]. China Environmental Science, 2020, 40(3):948-955.
    [53] VENKATRAM A. A critique of empirical emission factor models:a case study of the AP-42 model for estimating PM 10 emissions from paved roads [J]. Atmospheric Environment, 2000, 34(1):1-11.
    doi: 10.1016/S1352-2310(99)00330-1
    [54] KANTAMANENI R, ADAMS G, BAMESBERGER L, et al. The measurement of roadway PM 10 emission rates using atmospheric tracer ratio techniques [J]. Atmospheric Environment, 1996, 30(24):4209-4223.
    doi: 10.1016/1352-2310(96)00131-8
    [55] ASHBAUGH L, CHANG D, FLOCCHINI R G, et al. Traffic generated PM10 "hot spots"“hot spots” [R]. California:Air Quality Group,Crocker Nuclear Laboratory,University of California, 1996.
    [56] 樊守彬, 李雪峰, 张东旭, 等. 道路交通扬尘排放因子测量系统研发及应用[J]. 环境科学学报, 2016, 36(10):3569-3575.

    FAN S B, LI X F, ZHANG D X, et al. Development and application of an emission factor measurement system for road fugitive dust[J]. Acta Scientiae Circumstantiae, 2016, 36(10):3569-3575.
  • 加载中
计量
  • 文章访问数:  477
  • HTML全文浏览量:  95
  • PDF下载量:  106
  • 被引次数: 0
出版历程
  • 收稿日期:  2020-08-28
  • 刊出日期:  2021-05-20

目录

    /

    返回文章
    返回