长沙市大气中醛酮类化合物浓度变化特征

参照美国环保署EPA-TO11标准方法,于2014年7—10月监测了长沙市大气中醛酮类化合物的质量浓度。主要监测到的醛酮类化合物为甲醛、乙醛、丙酮、丙醛、甲基丙烯醛,夏季质量浓度最高的是甲醛(13.86 mg/m³),其次是乙醛(7.28 mg/m³)、丙酮(7.14 mg/m³),秋季质量浓度最高的是甲醛(10.31 mg/m³),其次是丙酮(8.37 mg/m³)、乙醛(5.78 mg/m³)。夏季醛酮类化合物的总量高于秋季,甲醛、乙醛、丙酮的质量浓度最大值基本出现在13:00—15:00。C1/C2(甲醛/乙醛)、C2/C3(乙醛/丙醛)的平均值分别为2.02、10.19。分析了醛酮类化合物之间的相关性以及它们可能的来源。丙醛和甲醛、乙醛的相关性较好,三者有共同的人为来源。夏季大气中除丙酮外,其他醛酮类化合物的相关性均较好。夏季甲基丙烯醛和甲醛、乙醛、丙酮有相同的自然来源。综合分析可知,长沙大气中醛酮类化合物质量浓度受自然因素和人为因素的双重影响。     

新乘用车内空气中的挥发性有机物污染特征及健康风险

为调查新生产乘用车内空气中挥发性有机物的含量、时间变化趋势以及致癌风险，2017—2020年在环境舱中采集了48辆新车在常温、高温和通风3种模式下的车内空气样品。结果显示，新车空气中苯系物(苯、甲苯、乙苯、对二甲苯、间二甲苯、邻二甲苯和苯乙烯之和)的质量浓度中值在常温、高温和通风模式下分别为101、335、55.8μg/m³;醛类物质(甲醛、乙醛和丙烯醛之和)的质量浓度中值分别为103、446、30.0μg/m³。常温模式下的乙醛及高温模式下的甲醛和乙醛超出国家标准限值的比例较高，超标比例分别为77.1%、81.3%和89.6%。2017—2020年国内生产的新乘用车，车内空气中的苯系物和醛类组分在3种模式下不同年份间基本无显著性差异。致癌风险评估结果显示，车内空气中苯的致癌风险可接受，甲醛的致癌风险在部分车型中较高。     

城市大气环境中醛酮类化合物污染状况及变化规律

2003年对郑州市城市环境空气中醛酮类化合物的污染状况及变化规律进行了初步调查研究.结果表明:大气环境中醛酮类污染物的质量浓度范围为未检出～167 μg/m3,主要污染物为甲醛、乙醛和丙酮;醛酮类污染物含量在不同季节的变化趋势是:夏季>春季>冬季;醛酮类污染物主要来源于大气中有机物的光化学反应,甲醛与乙醛、甲醛与丙酮有...     

郑州市不同季节空气中醛酮类化合物污染特征及来源

选择郑州市6个特征区域进行布点,在冬季和夏季,每季连续3 d采集样品,并采用2,4-二硝基苯肼吸附管吸附大气样品-高效液相色谱法测定大气中醛酮类化合物浓度水平。结果表明,郑州市大气中主要的醛酮类化合物是甲醛、乙醛、丙酮和2-丁酮,它们的小时平均质量浓度冬季分别为8.23、7.67、13.9、1.56μg/m3,夏季分别为15.4、10.3、17.1、3.30μg/m3,夏季浓度明显高于冬季;无论冬季或夏季昼间浓度均普遍高于夜间,甲醛、乙醛和丙酮的日变化最高质量浓度多出现在08:00~09:00或12:00~13:00或18:00~20:00等时段;甲醛、乙醛和丙酮在冬季相关性较好,具有相同的源和汇,甲醛和乙醛在夏季相关性较好,而甲醛、乙醛和丙酮在夏季的相关性较差。大气醛酮类化合物变化趋势表明,机动车尾气排放和光化学反应是郑州大气醛酮类化合物的重要来源。     

太原市冬、夏季醛酮化合物污染特征及来源分析

针对太原市空气臭氧污染较为严重的问题,开展臭氧主要前体物醛酮化合物质量浓度及其变化规律研究.利用2,4-二硝基苯肼固相吸附/高效液相色谱方法,通过对太原市2019年冬季和夏季大气的醛酮化合物进行分析,发现太原市冬季总醛酮化合物的平均质量浓度为13μg/m3,低于夏季的27μg/m3.其中甲醛、乙醛和丙酮质量浓度最高,且...     

2 ,4-二硝基苯肼固相吸附/高效液相色谱法测定车内空气中醛酮类物质

建立了2，4-二硝基苯肼固相吸附／高效液相色谱同时测定车内空气中4种醛酮类物质的方法，研究了固相吸附采样和前处理方法，优化了试验条件。4种醛酮类物质在一定质量范围内工作曲线线性良好，甲醛、乙醛、丙烯醛、丙酮的检出限分别为0．075μg／m^3、0．207μg／m^3、0．715μg／m^3、0．159μg／m^3（按采样体积12L计），实际样品测定的RSD为7.5％-9．7％。     

家庭烹饪油烟污染物排放特征研究

对5种家常菜烹制过程排放油烟中固态和气态污染物的排放浓度,以及4种不同型号吸油烟机对固态污染物的净化效率进行了测试。结果表明,在烹制不同菜品时,ρ(油脂)平均为0.41~7.71 mg/m~3,ρ(颗粒物)平均为2.28~13.15 mg/m~3,ρ(VOCs中烃类)平均为121.97~518.32μg/m~3,ρ(醛酮类)平均为288.8~1 361.6μg/m~3,以非甲烷总烃代表的ρ(VOCs)平均为1.13~13.46 mg/m~3(以碳计),以上结果的上限值均在烹制烹炒类荤菜(尖椒炒肉)时发生。从VOCs组分分布看,烃类污染物的排放以烷烃和烯烃为主,醛酮类污染物的排放以甲醛、乙醛、丙酮、丙醛、丁醛和正戊醛为主。此外,不同型号吸油烟机对各种菜品油烟中油脂的平均净化效率为63.84%~83.52%,对颗粒物的平均净化效率为61.02%~67.50%,且侧吸式吸油烟机较欧式吸油烟机净化效率高。     

基于SOA和O3生成潜势的上海市VOCs优控物种研究

为评估上海市挥发性有机物(VOCs)对二次有机气溶胶(SOA)和臭氧生成潜势的贡献,采用SUMMA罐采样实验室GC-FID/MS分析方法开展了环境空气104种臭氧前体物和TO-15组分分析,采用DNPH吸附管采样实验室HPLC高效液相色谱法开展了环境空气13种醛酮类组分分析。结果表明:2018年8-11月上海市代表点位VOCs摩尔分数均值范围为20. 61~50. 38 nmol/mol,臭氧生成潜势(OFP)均值范围为60. 55~184. 12μg/m^3,二次有机气溶胶生成潜势(AFP)为21. 63~61. 72μg/m^3。醛酮类和芳香烃类是OFP的主要贡献因子,贡献占比分别为31. 5%~55. 2%和21. 6%~37. 8%。芳香烃类对AFP贡献超过90%。从主要组分构成来看,城区人口密集区点位乙烷、丙烷浓度最高,其他点位甲醛浓度最高;甲醛对OFP贡献最大;间/对二甲苯在浦东书院点位AFP贡献最大,其他点位为甲苯。OFP和AFP双控物种各点位均有4~5个主要物种,以芳香烃类为主。     

成都餐饮源PM_(2.5)及VOCs排放因子的探索

对成都8家社会餐饮企业排放的PM2.5和VOCs监测分析,结果表明,餐饮企业排放的PM2.5平均质量浓度为(1.32±0.84)mg/m3,VOCs平均质量浓度为(0.37±0.45)mg/m3,VOCs的主要成分是48%的苯系物,22%的烷烯烃以及20%的酮类。根据餐饮企业的活动水平和实际监测结果,以就餐人数为基准得到的PM2.5和VOCs的排放因子分别为0.80 g/(人·次)和0.11 g/(人·次),以用油量为基准得到的PM2.5和VOCs的排放因子分别为8.5 g/kg和1.4 g/kg。     

南京市臭氧、VOCs和PANs污染特征及变化趋势

对2013—2016年基于国家环境空气质量监测站以及省建大气多参数站所获取的南京市O_3、NO_2、CO、VOCs、PANs观测结果进行综合评价,结果表明:2016年南京市O_3第90百分位日最大8 h平均质量浓度比2013年上升33.3%,超标天数中O_3引起的超标占比增至32.0%。南京市区大气中非甲烷总烃冬季浓度高于夏季,含氧挥发性有机物则与之相反;在5—9月,含氧挥发性有机物组分在日变化过程中出现峰值的时间先后顺序依次为醚、醛、酮类,且O_3和过氧乙酰硝酸酯(PANs)生成存在有一定的线性关系。VOCs/NOx比值表明南京市处于VOCs控制区,因此对NO_2浓度下降不敏感,植物源挥发性有机物连续3年上升,夏季大气光化学反应活性未显著下降,这些现象是城市O_3浓度维持在较高水平的重要因素。     

Mixing ratios of carbonyls and BTEX in ambient air of Kolkata, India and their associated health risk

Mixing ratios of 15 carbonyls and BTEX (benzene, toluene, ethyl benzene, xylenes) were measured for the first time in ambient air of Kolkata, India at three sites from March to June 2006 and their photochemical reactivity was evaluated. Day and nighttime samples were collected on weekly basis. Formaldehyde was the most abundant carbonyl (mean concentration ranging between 14.07 microg m(-3) to 26.12 microg m(-3) over the three sites) followed by acetaldehyde (7.60-18.67 microg m(-3)) and acetone (4.43-10.34 microg m(-3)). Among the high molecular weight aldehydes, nonanal showed the highest concentration. Among the mono-aromatic VOCs, mean concentration of toluene (27.65-103.31 microg m(-3)) was maximum, closely followed by benzene (24.97-79.18 microg m(-3)). Mean formaldehyde to acetaldehyde (1.4) and acetaldehyde to propanal ratios (5.0) were typical of urban air. Based on their photochemical reactivity towards OH. radical, the concentrations of the VOCs were scaled to formaldehyde equivalent, which showed that the high molecular weight carbonyls and xylenes contribute significantly to the total OH-reactive mass of the VOCs. Due to the toxic effect of the VOCs studied, an assessment for both cancer risk and non-cancer hazard due to exposure to the population were calculated. Integrated life time cancer risk (ILTCR) due to four carcinogens (benzene, ethyl benzene, formaldehyde and acetaldehyde) and non-cancer hazard index for the VOCs at their prevailing level were estimated to be 1.42E-04 and 5.6 respectively.     

Levels, sources, and health risks of carbonyls in residential indoor air in Hangzhou, China

Concentrations of formaldehyde, acetaldehyde, acetone, propionaldehyde, i-pentanal, and butyraldehyde in residential indoor air in Hangzhou were determined. The mean concentration of the total carbonyl compounds in summer was 222.6 μg/m³, higher than that in winter (68.5 μg/m³). The concentration of a specific carbonyl in indoor air was higher than the outdoor air measurement, indicating the release of carbonyls from the indoor sources. Formaldehyde and acetone were the most abundant carbonyls detected in summer and winter, respectively. Multiple regression analysis indicated that carbonyl concentrations in residential indoor air depended on the age of decoration and furniture, as well as their concentrations in outdoor air. In addition, a primary estimation showed that the health risks of carbonyls in summer were higher than those in winter.     

Seasonal evaluation of outdoor/indoor air quality in primary schools in Lisbon

The aim of this study was to evaluate the indoor (I) and outdoor (O) levels of NO?, speciated volatile organic compounds (VOCs) and carbonyls at fourteen primary schools in Lisbon (Portugal) during spring, autumn and winter. Three of these schools were also selected to be monitored for comfort parameters, such as temperature and relative humidity, carbon dioxide (CO?), carbon monoxide (CO), total VOCs, and both bacterial and fungal colony-forming units per cubic metre. The concentration of CO? and bioaerosols greatly exceeded the acceptable maximum values of 1800 mg m?3 and 500 CFU m?3, respectively, in all seasons. Most of the assessed VOCs and carbonyls occurred at I/O ratios above unity in all seasons, thus showing the importance of indoor sources and building conditions in indoor air quality. However, it has been observed that higher indoor VOC concentrations occurred more often in the colder months, while carbonyl concentrations were higher in the warm months. In general, the I/O NO? ratios ranged between 0.35 and 1, never exceeding the unity. Some actions are suggested to improve the indoor air quality in Lisbon primary schools.     

Measurements of benzene and formaldehyde in a medium sized urban environment. Indoor/outdoor health risk implications on special population groups

In the present study, the results of a measurement campaign aiming to assess cancer risk among two special groups of population: policemen and laboratory technicians exposed to the toxic substances, benzene and formaldehyde are presented. The exposure is compared to general population risk. The results show that policemen working outdoor (traffic regulation, patrol on foot or in vehicles, etc.) are exposed at a significantly higher benzene concentration (3-5 times) than the general population, while the exposure to carbonyls is in general lower. The laboratory technicians appear to be highly exposed to formaldehyde while no significant variation of benzene exposure in comparison to the general population is recorded. The assessment revealed that laboratory technicians and policemen run a 20% and 1% higher cancer risk respectively compared to the general population. Indoor working place air quality is more significant in assessing cancer risk in these two categories of professionals, due to the higher Inhalation Unit Risk (IUR) of formaldehyde compared to benzene. Since the origin of the danger to laboratory technicians is clear (use of chemicals necessary for the experiments), in policemen the presence of carbonyls in indoor air concentrations due to smoking or used materials constitute a danger equal to the exposure to traffic originated air pollutants.     

宁波和温州地区夏季大气中不同粒径颗粒物特征分析

对宁波地区北仑和奉化站、温州地区乐清站3个监测点夏季TSP、PM10、PM2.5和PM1.0进行监测,测试分析各种粒径颗粒物浓度水平和粒径分布特征,并通过化学质量平衡(CMB)受体模型对颗粒物进行源解析。监测结果显示,夏季宁波、温州地区TSP和PM10日均浓度为0.049～0.134mg/m3和0.025～0.084mg/m3,均未超过我国环境空气质量二级标准;PM2.5日均浓度为0.007～0.069mg/m3,按美国2006年EPA最新标准限值0.035mg/m3衡量,奉化、乐清、北仑站的超标天数占总监测天数的比例分别为75%、40%和37.5%。粒径分布统计结果显示,3个监测站点PM10占TSP的比例为48.78%～86.96%;PM2.5占TSP的比例为33.33%～72.46%;奉化和乐清监测点PM10中PM2.5和PM1.0的比例平均值在50%以上。源解析结果显示,夏季TSP主要来源于土壤尘,其次是建筑尘和煤烟尘,其贡献率分别为40.70%～55.49%、9.62%～13.64%和5.85%～17.28%。     

Seasonal variations of monocarbonyl and dicarbonyl in urban and sub-urban sites of Xi’an,China

Seventeen airborne carbonyls including monocarbonyls and dicarbonyls were determined in urban and sub-urban sites of Xi’an, China in three seasons in 2010. In winter, acetone was the most abundant carbonyl in the urban site due to usage of organic solvents in constructions and laboratories and its slower atmospheric removal mechanisms by photolysis and reaction with hydroxyl radical than those of formaldehyde and acetaldehyde. In the sub-urban site, acetaldehyde was the most abundant carbonyl, followed by formaldehyde and acetone. During summer, however, formaldehyde was the most dominant carbonyl in both sites. The photooxidations of a wide range of volatile organic compounds (VOCs) yielded much more formaldehyde than other carbonyls under high solar radiation and temperature. In the urban site, the average concentrations of dicarbonyls (i.e., glyoxal and methyglyoxal) in spring and summer were higher than that in winter. Transformation of aromatic VOCs emitted from fuel evaporation leads to the formation of 1,2-dicarbonyls. A reverse trend was observed in sub-urban sites, as explained by the relatively low abundances and accumulations of VOC precursors in the rural atmosphere during warm seasons. Moreover, cumulative cancer risk based on measured outdoor carbonyls (formaldehyde and acetaldehyde) in Xi’an Jiaotong University and Heihe was estimated (8.82?×?10^?5 and 4.96?×?10^?5, respectively). This study provides a clear map on the abundances of carbonyls and their source interpretation in the largest and the most economic city in Northwestern China.     

副玫瑰苯胺无汞比色法测定空气中的甲醛

在甲醛法测定空气中二氧化硫的基础上,建立了一种测定空气中甲醛的新方法。该方法所用设备和材料与甲醛法测定空气中的二氧化硫相同,不使用含汞试剂,用亚硫酸钠固定标准溶液和吸收液中的甲醛,用氢氧化钠分解羟甲磺酸释放已被固定的甲醛,以副玫瑰苯胺和亚硫酸钠为显色剂绘制标准曲线进行定量。当采集空气30L时,检出限为0.01mgm3,最低检测浓度为0.03mgm3,适用于环境空气及室内空气中甲醛的测定。     

Determination of carbonyls and their sources in three sites of the metropolitan area of Costa Rica,Central America

Ambient levels of carbonyl compounds and their possible sources were studied at three places in the metropolitan area of Costa Rica, including a residential, an industrial, and a commercial downtown area with high vehicular flow, during the periods of April–May and September–December 2009. Fifteen carbonyl compounds were identified in the ambient air, of which acetone was the most abundant carbonyl, followed by formaldehyde and acetaldehyde. Concentrations were highest in rainy season at all sites and lower in dry season. These decreases in concentration are explained by the influences of both photochemical reactions and local meteorological conditions. The strong correlation between C1–C2 and C3 indicated a common origin for these carbonyls. The C1/C2 ratios varied between 0.49 to 1.05, values which can be considered typical of an urban area.     

机动车排放尾气中挥发性有机污染物对环境空气质量影响初探

采用气相色谱/质谱检测技术,对汽油和柴油、汽油车和柴油车排放气体以及天津市环境空气中主要挥发性有机污染物(VOCs)的组成种类及比例进行探析.结果表明,机动车排放的尾气中主要有机污染物为芳香烃类、烷烃类和烯烃类化合物,其中芳香烃类含量最高;汽油车排放的芳香烃类化合物浓度高于柴油车排放的浓度;机动车尾气对交通区域空气质量的影响高于工厂区(非化工区)、生活小区和公园.