School of Human Settlements and Civil Engineering, Xi'an Jiaotong University, Xi'an, 710049, China.
Department of Environmental Science and Engineering, Xi'an Jiaotong University, Xi'an, 710049, China.
Environ Sci Pollut Res Int. 2019 Sep;26(27):27769-27782. doi: 10.1007/s11356-019-05950-0. Epub 2019 Jul 24.
To insight the urban volatile organic compound (VOC) profiles and its contribution to ozone, four-time per day (8:00-9:00, 15:00-16:00, 19:00-20:00, and 23:00-24:00) off-line VOC samples were collected from 16th July to 28th July 2018 for a summer investigation campaign over Xi'an, China. The diurnal variation was significant that the lowest TVOC concentrations were observed in the midnight period (28.4 ± 25.6 ppbv) while the highest was shown in the morning (49.6 ± 40.1 ppbv). The differences of total non-methane VOCs (TVOCs) between weekdays and weekend were also significant that the weekend showed significantly high VOC levels than weekdays (p < 0.05) but did not lead to significant ambient O increase (p > 0.05). Isopentane, a general marker for vehicle exhaust, showed descending concentrations from morning to midnight and good correlation with vehicle numbers on road, indicating a potential source to the VOCs at this site. The results from PMF proved that vehicular exhaust was the largest source to the VOCs in this study (64.4%). VOC categories showed a reverse sequence in abundance of concentrations and OFP contributions that alkenes showed the highest OFPs although with the lowest abundance in TOVCs due to their high reactivity in photochemical reactions. High OFPs from ethylene and isopentane indicated that vehicular emissions could be the largest potential OFP source in this site. OFPs from isoprene (from 1.85 to 13.4 ppbv) indicated that biogenic VOCs should not be negligible in urban Xi'an city when controlling O pollutants. Comparison of two OFP methods was conducted and MIR method was proved to be more reasonable and scientific in summer Xi'an. Therefore, vehicular emission, the largest contributor to ambient VOCs and also OFPs, as well as biological source should be priority controlled in guiding VOC emissions and reducing O control policies.
为了深入了解城市挥发性有机化合物(VOC)的组成及其对臭氧的贡献,我们于 2018 年 7 月 16 日至 7 月 28 日进行了一次夏季调查活动,每天四次(8:00-9:00、15:00-16:00、19:00-20:00 和 23:00-24:00)离线采集 VOC 样本。结果表明,日变化非常明显,午夜时段的 TVOC 浓度最低(28.4 ± 25.6 ppbv),而清晨最高(49.6 ± 40.1 ppbv)。工作日和周末之间总非甲烷 VOC(TVOC)的差异也很显著,周末的 VOC 水平明显高于工作日(p < 0.05),但并未导致环境 O 浓度显著增加(p > 0.05)。异戊烷是车辆尾气的一般标志物,其浓度从清晨到午夜呈下降趋势,与道路上的车辆数量呈良好相关性,表明该站点 VOC 可能有车辆排放源。PMF 结果表明,车辆尾气是本研究中 VOC 的最大来源(64.4%)。VOC 类别在浓度和 O 形成潜力(OFP)贡献方面呈现出相反的顺序,烯烃尽管在总挥发性有机化合物(TOVCs)中的丰度最低,但由于其在光化学反应中的高反应性,表现出最高的 OFP。乙烯和异戊烷的高 OFP 表明,在该站点,车辆排放可能是最大的潜在 OFP 来源。异戊二烯的 OFP(从 1.85 到 13.4 ppbv)表明,在控制 O 污染物时,西安市的生物源 VOC 不应被忽视。对两种 OFP 方法进行了比较,结果表明,MIR 方法在夏季的西安更为合理和科学。因此,在指导 VOC 排放和减少 O 控制政策时,应优先控制车辆排放,这是大气 VOC 和 OFP 的最大贡献源,以及生物源。
