青藏高原背景站大气VOCs浓度变化特征及来源分析

采用大气预浓缩与气象色谱/质谱联用法,对2013-09-13到2013-10-14期间在国家大气背景站青海门源站所采集的大气样品进行分析.结果显示,本次研究共检测出38种挥发性有机物(VOCs),其中烷烃16种,烯烃11种,芳香烃9种,卤代烃2种.从组成成分来看,烷烃所占比例最大,达58.6%,烯烃和芳香烃分别占29%和10.5%,卤代烃所占比例最小,仅为1.7%.观测期间大多数VOCs物种呈现白天浓度低、夜晚浓度高的变化趋势,具有明显的高原站点特性,但异戊烷、异戊二烯、甲苯则呈现相反趋势.采用臭氧生成潜势(OFP)对VOCs各组分活性进行分析,各类VOCs中烯烃对OFP贡献最大.利用主成分分析VOCs物种,提取出4个因子,分别归类于燃烧源、天然气和液化石油气的泄露、工业源、生物源.结合HYSPLIT 4.0后向轨迹模型,进一步确定气团的来源与运输途径,发现来自南向的污染源贡献是门源地区VOCs物种浓度增加的主要原因.     

吹扫捕集／气相色谱－质谱法测定水中挥发性有机物的质量控制研究

影响吹扫捕集／气相色谱－质谱法测定水中挥发性有机物的因素很多,如空气中的挥发性有机物可能通过采样瓶的扩散,使准确性和可靠性降低。结合环境监测工作实际,按分流比20∶1分流进样,选择11＃捕集阱,样品解析时选择解析时间0．5 min,选择吹扫管支座温度为40℃,选择与目标化合物相比相对保留时间在0．8～1．20之间内标物,同时样品采集、保存、运输和器皿清洗等条件严格按照国标方法进行,可以确保吹扫捕集／气相色谱－质谱法测定的精密度和准确度。     

湖北省主要固定燃烧源大气颗粒物及VOCs排放特征研究

于2014年1月至12月对湖北省9个城市21家典型企业的固定燃烧源进行了典型大气颗粒物及挥发性有机物(VOCs)的监测工作,研究了固定燃烧源大气颗粒物及VOCs的排放特征及其物质组成。结果表明:大气颗粒物年排放总量与装机容量呈正相关关系,颗粒物粒径越细占总颗粒物的质量百分比越低;不同燃料的锅炉废气中的PM10和PM2.5质量浓度表现为:石油焦煤生活垃圾,燃气锅炉废气中只检出PM1.0;焦化厂和炼铁厂锅炉废气中的VOCs以烯(炔)烃为主,各占79.21%和81.09%,乙烯占总VOCs的百分比最高,分别为69.13%和68.88%;燃油锅炉废气中的VOCs以烯(炔)烃(91.74%)为主,燃气锅炉废气中的VOCs以烯(炔)烃(37.96%)和醛脂(38.79%)为主;锅炉废气中VOCs的组分和浓度受锅炉使用类型和燃料类型差异的影响,排放废气中的VOCs浓度水平表现为:焦化厂锅炉炼铁厂锅炉,燃油锅炉燃气锅炉,且组分更复杂。     

炼油行业泄漏检测与修复技术实践研究

炼油行业排放的大气污染物主要是挥发性有机物,是形成二次污染物的重要前体物,也是引发大气环境问题的重要污染物.以天津某炼油企业泄漏检测与修复技术的工作实践为例,结合炼油行业生产装置的工艺特点,介绍在该行业开展泄漏检测与修复技术时的工作流程,包括设备和管线组件密封点位的建档、检测、泄漏点位的修复、复测以及泄漏量核算方法,对炼油行业开展泄漏检测与修复工作减少挥发性有机物无组织的排放起到借鉴作用.     

Ozone episodes during and after the 2018 Chinese National Day holidays in Guangzhou: Implications for the control of precursor VOCs

The impact of reducing industrial emissions of volatile organic compounds (VOCs) on ozone (O₃) pollution is of wide concern particularly in highly industrialized megacities. In this study, O₃, nitrogen oxides (NOx) and VOCs were measured at an urban site in the Pearl River Delta region during the 2018 Chinese National Day Holidays and two after-holiday periods (one with ozone pollution and another without). O₃ pollution occurred throughout the 7-day holidays even industrial emissions of VOCs were passively reduced due to temporary factory shutdowns, and the toluene to benzene ratios dropped from ∼10 during non-holidays to ∼5 during the holidays. Box model (AtChem2-MCM) simulations with the input of observation data revealed that O₃ formation was all VOC-limited, and alkenes had the highest relative incremental reactivity (RIR) during the holiday and non-holiday O₃ episodes while aromatics had the highest RIR during the non-pollution period. Box model also demonstrated that even aromatics decreased proportionally to levels with near-zero contributions of industrial aromatic solvents, O₃ concentrations would only decrease by less than 20% during the holiday and non-holiday O₃ episodes and ozone pollution in the periods could not be eliminated. The results imply that controlling emissions of industrial aromatic solvents might be not enough to eliminate O₃ pollution in the region, and more attention should be paid to anthropogenic reactive alkenes. Isoprene and formaldehyde were among the top 3 species by RIRs in all the three pollution and non-pollution periods, suggesting substantial contribution to O₃ formation from biogenic VOCs.     

Ambient volatile organic compounds at a receptor site in the Pearl River Delta region: Variations, source apportionment and effects on ozone formation

We present the continuously measurements of volatile organic compounds（VOCs） at a receptor site（Wan Qing Sha, WQS） in the Pearl River Delta（PRD） region from September to November of 2017. The average mixing ratios of total VOCs（TVOCs） was 36.3 ± 27.9 ppbv with the dominant contribution from alkanes（55.5%）, followed by aromatics（33.3%）. The diurnal variation of TVOCs showed a strong photochemical consumption during daytime,resulting in the formation of ozone（O₃）. Five VOC sources were ...     

Ambient levels of atmospheric carbonyls in Beijing during the 2008 Olympic Games

The measurements of atmospheric carbonyls concentrations in Beijing were conducted from 12 July to 8 October, 2008, covering the periods of the 2008 Olympic Games and Paralympic Games. Six carbonyls, including formaldehyde, acetaldehyde, acetone, butyraldehyde, valeraldehyde, and hexaldehyde, were identified in all air samples. The total average concentrations of these carbonyls before, during, and after traffic restriction were (48.1 ± 15.2), (36.6 ± 14.5) and (23.4 ± 12.3) μg/m3, respectively. Compared with the period after traffic restriction, the distinct high concentrations of the carbonyls before and during traffic restriction were primarily ascribed to the remarkable contribution of photochemical reactions. With respect to our previous investigation in the summer of 2005, the reductions of formaldehyde, acetaldehyde and acetone during traffic restriction period were about 64%, 47% and 27%, respectively, indicating that the air cleaning actions adopted by the Chinese government for the two games were efficient. The lowest levels of atmospheric carbonyls and the extremely high composition proportion of acetone after the traffic restriction were mainly attributed to the long-term effect of the control measures for the two games.     

Pollution survey of carbonyl compounds in train air

The train is an important vehicle in China, but its air quality has important impacts on passengers’ health. In this work, pollution from carbonyl compounds was measured in the air of six trains. The objectives of this work were to investigate carbonyl compound levels in selected air from trains, identify their emission sources, and assess the intake of carbonyl compounds for passengers. The methods for sampling and analyzing 10 carbonyl compounds such as formaldehyde, acetaldehyde, acrolein, acetone, propionaldehyde, crotonaldehyde, butyraldehyde, benzaldehyde, cyclohexanone, and valeraldehyde in indoor air were proposed with the sampling efficiency, recovery, and detection limit being 92%–100%, 91%–104%, and 0.26–0.82 ng/m³, respectively. It was indicated that the total concentrations of carbonyl compounds were 0.159–0.2828 mg/m³ with the average concentration of 0.2330 mg/m³. The average concentrations of form aldehyde, acetaldehyde and acetone were 0.0922, 0.0499, and 0.0580 mg/m³, accounting for 42.6%, 21.4%, and 24.9% of the total concentrations of carbonyl compounds, respectively. The carbonyl compounds probably came from woodwork and cigarette smoking. The intake of carbonyl compounds for the passengers was approximately 0.043–0.076 mg/h. The carbonyl compounds in train air could be harmful to human health. Translated from Environmental Science, 2006, 27(1) 91–94 [译自: 环境科学]     

生物滴滤器去除挥发性有机物的影响因素

生物滴滤器用于处理挥发性有机物,有机物的去除效率受到许多因素的影响。总结和讨论了填料、营养液、进气等诸多因素对生物滴滤器性能的影响。这些讨论结果有助于在生物滴滤器实际应用中选择合适的设计和操作条件,从而达到更佳的处理效果。     

广州大气中羰基化合物特征

在广州选择不同的区研究了广州大气中羰基化合物的浓度水平,分布特征及来源。广州大气中羰基化合物的浓度在城区不同的采样地点,不同的采样时间变化不大;浓度水平与世界上其他污染比较严重的几个城市相当。利用文献中羰基化合物与.OH的反应常数,计算出在广州大气中羰基化合物对.OH消除贡献。