车辆限行前后奥运场馆附近空气中苯系物污染特征与来源

在"好运北京"体育赛事车辆限行前后对北京奥运场馆,即四环路健翔桥附近空气中的6种苯系物进行了连续监测。监测结果显示,被测空气的苯系物中甲苯所占比例最大,为32.1%~42.5%,限行后总苯系物平均质量浓度降低了近47%。车辆限行前后,苯系物呈现类似的日变化规律,在交通早、晚高峰时出现峰值。限行前苯系物处于累积状态,日最高值出现在18点,限行后苯系物处于扩散状态,日最高值出现在8点。苯系物来源解析表明,整个交通管制期间苯/甲苯浓度的比值为0.49~0.55,且各苯系物具有良好的相关性,证明被测空气中苯系物具有良好的同源性,均来自汽车尾气。限制车流量可有效降低空气中苯系物浓度。     

Assessment of traffic-related air pollution in the urban streets before and during the 2008 Beijing Olympic Games traffic control period

In order to investigate the air quality and the abatement of traffic-related pollution during the 2008 Olympic Games, we select 12 avenues in the urban area of Beijing to calculate the concentrations of PM₁₀, CO, NO₂ and O₃ before and during the Olympic traffic controlling days, with the OSPM model.Through comparing the modeled results with the measurement results on a representative street, the OSPM model is validated as sufficient to predict the average concentrations of these pollutants at street level, and also reflects their daily variations well, i.e. CO presents the similar double peaks as the traffic flow, PM₁₀ concentration is influenced by other sources. Meanwhile, the model predicts O₃ to stay less during the daytime and ascend in the night, just opposite to NO₂, which reveals the impact of photochemical reactions. In addition, the predicted concentrations on the windward side often exceed the leeward side, indicating the impact of the special street shape, as well as the wind.The comparison between the predicted street concentrations before and during the Olympic traffic control period shows that the overall on-road air quality was improved effectively, due to the 32.3% traffic flow reduction. The concentrations of PM₁₀, CO and NO₂ have reduced from 142.6 μg m⁻³, 3.02 mg m⁻³ and 118.7 μg m⁻³ to 102.0 μg m⁻³, 2.43 mg m⁻³ and 104.1 μg m⁻³. However, the different pollutants show diverse changes after the traffic control. PM₁₀ decreases most, and the reduction effect focusing on the first half-day even clears the morning peak, whereas CO and NO₂ have even reductions to minify the daily fluctuations on the whole. Opposite to the other pollutants, ozone shows an increase of concentration. The average reduction rate of PM₁₀, CO, NO₂ and O₃ are respectively 28%, 19.3%, 12.3% and −25.2%. Furthermore, the streets in east, west, south and north areas present different air quality improvements, probably induced by the varied background pollution in different regions around Beijing, along with the impact of wind force. This finding suggests the pollution control in the surrounding regions, not only in the urban area.     

奥运期间北京典型交通环境气态污染物特征及人体吸入剂量

为了评估2008年奥运会期间北京市机动车控制措施效果,对不同控制措施阶段北四环道路的气态污染物进行监测,并同步采集车流与气象信息.基于监测结果归纳气态污染物特征,分析控制措施的影响,并计算高峰小时与日间小时平均污染物人体吸入剂量.结果表明,控制措施全面实施期间(Ⅲ阶段)北四环路日间平均车流量下降约22%,其中轻型车流量降低约43%.与之相对应,北四环CO、NOx、NO2的浓度水平范围分别是0.10～3.94,0.002～0.139,0.002～0.099mg.m-3,较奥运前(2008年5月)监测浓度显著下降.其中,奥运赛事期间(Ⅲ-2阶段)CO、NOx、NO2平均浓度降幅最大,分别达到63%,71%和70%.奥运期间(Ⅲ阶段)CO与NOx的单人与总人群的高峰小时和日间平均小时吸入剂量较奥运前(2008年5月)均有显著下降,其中CO单人高峰小时与日间小时平均吸入剂量降幅分别是63%和81%;NOx单人高峰小时与日间小时平均吸入剂量降幅分别是58%和55%.区域总人群的吸入量也同比例下降.奥运期间严格的交通控制措施大幅削减了机动车污染物排放量,从而降低了道路交通环境机动车尾气污染引起的人体吸入剂量.