南京市工业项目工程机械大气污染物排放清单研究
|
摘要
通过对金陵石化及扬子石化两个特大施工工地活动水平的研究,根据收集的南京市工业项目工程机械数据资料,采用合适的估算方法和排放因子,据此建立了2017年南京市工业项目工程机械大气污染物排放清单。结果表明,2017年南京市工业项目工程机械共排放NO_(x )13 072.13kg,占工程机械污染物排放总量的55.79%,为最大污染贡献源;CO排放总量为6 194.17kg、VOC排放总量为1511.82kg、PM_(10)排放总量为932.20kg、SO_2排放总量为1 068.42kg、PM_(2.5)排放总量为651.74kg。在所有工程机械的使用过程中,挖掘机为最大污染贡献源,占污染物排放总量的30.22%;其次为200t以下吊车(起重机),占比为20.41%;压路机、搅拌机分别为第三、第四污染贡献源,占比分别为17.81%、15.18%。
Based on the research of the activity level of Jinling Petrochemical and Yangtse Petrochemical construction sites, using appropriate estimation methods and emission factors, the emission inventory of construction machinery of industrial project was established for Nanjing in 2017 according to the collected construction machinery data of industrial project.The results showed that the emissions of NOx of construction machinery of industrial project was 13072.13 kg, which is the largest source of construction machinery pollution with the contribution ratio about 55.79%. The emissions of CO, VOC, PM_(10), SO_2, and PM_(2.5) were about 6 194.17 kg, 1 511.82 kg, 932.20 kg, 1 068.42 kg and 651.74 kg, respectively.. Among the machines, excavators were the biggest source of pollution, accounting for 30.22% of the total pollutant emissions. Followed by crane below 200 t, accounting for 20.41% of the total pollutant emissions. Road roller and agitator were the third and fourth pollution sources, accounting for 17.81% and 15.18% of the total pollutant emissions, respectively.
Based on the research of the activity level of Jinling Petrochemical and Yangtse Petrochemical construction sites, using appropriate estimation methods and emission factors, the emission inventory of construction machinery of industrial project was established for Nanjing in 2017 according to the collected construction machinery data of industrial project.The results showed that the emissions of NOx of construction machinery of industrial project was 13072.13 kg, which is the largest source of construction machinery pollution with the contribution ratio about 55.79%. The emissions of CO, VOC, PM_(10), SO_2, and PM_(2.5) were about 6 194.17 kg, 1 511.82 kg, 932.20 kg, 1 068.42 kg and 651.74 kg, respectively.. Among the machines, excavators were the biggest source of pollution, accounting for 30.22% of the total pollutant emissions. Followed by crane below 200 t, accounting for 20.41% of the total pollutant emissions. Road roller and agitator were the third and fourth pollution sources, accounting for 17.81% and 15.18% of the total pollutant emissions, respectively.
引文
[1] 曲亮,何立强,胡京南,等.工程机械不同工况下PM2.5排放及其碳质组分特征[J].环境科学研究,2015(7):1047-1052.
[2] Jathar S H,Woody M,Pye H O T,et al.Chemical transport model simulations of organic aerosol in southern California:model evaluation and gasoline and diesel source contributions[J].Atmospheric Chemistry and Physics,2017(6):4305-4318.
[3] 李东玲,吴烨,周昱,等.我国典型工程机械燃油消耗量及排放清单研究[J].环境科学,2012(2):518-524.
[4] Dallmann T R,Harley R A.Evaluation of mobile source emission trends in the United States[J/OL].Journal of Geophysical Research.Atmospheres,2010,115(14).
[5] Wang F,Li Z,Zhang K,et al.An overview of non-road equipment emissions in China[J].Atmospheric Environment,2016,132:283-289.
[6] 鲁君,黄成,胡磬遥,等.长三角地区典型城市非道路移动机械大气污染物排放清单[J].环境科学,2017,(7):2738-2746.
[7] 谢轶嵩,郑新梅.南京市非道路移动源大气污染物排放清单及特征[J].污染防治技术,2016,(4):47-51.
[8] 隗潇.京津冀非道路移动源排放清单的建立:第十七届二氧化硫氮氧化物、汞污染防治技术暨细颗粒物(PM2.5)控制与监测技术研讨会,中国浙江杭州,2013[C].
[9] 张礼俊,郑君瑜,尹沙沙,等.珠江三角洲非道路移动源排放清单开发[J].环境科学,2010,(4):886-891.
[10] 张意,Andre Michel,李东,等.天津市非道路移动源污染物排放清单开发[J].环境科学,2017,(11):4447-4453.
[11] 南京市统计局.南京统计年鉴2017[M].北京:中国统计出版社,2017.
[12] 陈洁,张静.南京市典型施工工地非道路移动机械活动水平及排放清单研究[J].环境科技,2016,(6):22-25.
[13] 环境保护部.非道路移动源大气污染物排放清单编制技术指南(试行)[S].2015.
[14] 潘月云,李楠,郑君瑜,等.广东省人为源大气污染物排放清单及特征研究[J].环境科学学报,2015,(9):2655-2669.
[15] 李明月.移动污染源排放清单研究[D].北京:北京理工大学,2016.
[16] 佟小宁,乔月珍,姚双双,等.南京市建筑扬尘排放清单研究[J].环境监测管理与技术,2014,(3):21-24.
[17] 黄成,安静宇,鲁君.长三角区域非道路移动机械排放清单及预测[J].环境科学,2018,(9):1-13.
[2] Jathar S H,Woody M,Pye H O T,et al.Chemical transport model simulations of organic aerosol in southern California:model evaluation and gasoline and diesel source contributions[J].Atmospheric Chemistry and Physics,2017(6):4305-4318.
[3] 李东玲,吴烨,周昱,等.我国典型工程机械燃油消耗量及排放清单研究[J].环境科学,2012(2):518-524.
[4] Dallmann T R,Harley R A.Evaluation of mobile source emission trends in the United States[J/OL].Journal of Geophysical Research.Atmospheres,2010,115(14).
[5] Wang F,Li Z,Zhang K,et al.An overview of non-road equipment emissions in China[J].Atmospheric Environment,2016,132:283-289.
[6] 鲁君,黄成,胡磬遥,等.长三角地区典型城市非道路移动机械大气污染物排放清单[J].环境科学,2017,(7):2738-2746.
[7] 谢轶嵩,郑新梅.南京市非道路移动源大气污染物排放清单及特征[J].污染防治技术,2016,(4):47-51.
[8] 隗潇.京津冀非道路移动源排放清单的建立:第十七届二氧化硫氮氧化物、汞污染防治技术暨细颗粒物(PM2.5)控制与监测技术研讨会,中国浙江杭州,2013[C].
[9] 张礼俊,郑君瑜,尹沙沙,等.珠江三角洲非道路移动源排放清单开发[J].环境科学,2010,(4):886-891.
[10] 张意,Andre Michel,李东,等.天津市非道路移动源污染物排放清单开发[J].环境科学,2017,(11):4447-4453.
[11] 南京市统计局.南京统计年鉴2017[M].北京:中国统计出版社,2017.
[12] 陈洁,张静.南京市典型施工工地非道路移动机械活动水平及排放清单研究[J].环境科技,2016,(6):22-25.
[13] 环境保护部.非道路移动源大气污染物排放清单编制技术指南(试行)[S].2015.
[14] 潘月云,李楠,郑君瑜,等.广东省人为源大气污染物排放清单及特征研究[J].环境科学学报,2015,(9):2655-2669.
[15] 李明月.移动污染源排放清单研究[D].北京:北京理工大学,2016.
[16] 佟小宁,乔月珍,姚双双,等.南京市建筑扬尘排放清单研究[J].环境监测管理与技术,2014,(3):21-24.
[17] 黄成,安静宇,鲁君.长三角区域非道路移动机械排放清单及预测[J].环境科学,2018,(9):1-13.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |