2018年春节期间京津冀及周边区域空气质量分析

分析了2018年春节期间京津冀及周边区域空气质量状况,结果表明,京津冀及周边区域2018年春节期间空气污染较重,以石家庄、邢台、邯郸、晋城、长治为中心的区域污染最重,此次重污染过程呈污染范围大、持续时间长的特点。受微风、高湿、逆温等不利气象条件影响,颗粒物污染不断积累和二次转化。除夕(2月15日)至初六(2月21日),北京首要污染源为机动车尾气源,张家口、保定、太原、郑州为燃煤源,太原和廊坊烟花源占比高于其他城市。自除夕(2月15日)下午开始,区域内各城市烟花爆竹燃放相关离子浓度有不同程度的增加,北京、保定烟花源贡献率与贡献浓度与2017年春节期间相比有所下降。2018年春节期间PM_2.5浓度明显高于2015—2017年,区域南部空气质量较差,重污染区域主要集中在以石家庄、邢台、邯郸、长治、晋城为中心的区域。     

Sources of ambient non-methane hydrocarbon compounds and their impacts on O3 formation during autumn, Beijing

The field observation of 54 non-methane hydrocarbon compounds (NMHCs) was conducted from September 1 to October 20 in 2020 during autumn in Haidian District, Beijing. The mean concentration of total NMHCs was 29.81 ± 11.39 ppbv during this period, and alkanes were the major components. There were typical festival effects of NMHCs with lower concentration during the National Day. Alkenes and aromatics were the dominant groups in ozone formation potential (OFP) and OH radical loss rate (L_OH). The positive matrix factorization (PMF) running results revealed that vehicular exhaust became the biggest source in urban areas, followed by liquefied petroleum gas (LPG) usage, solvent usage, and fuel evaporation. The box model coupled with master chemical mechanism (MCM) was applied to study the impacts of different NMHCs sources on ozone (O₃) formation in an O₃ episode. The simulation results indicated that reducing NMHCs concentration could effectively suppress O₃ formation. Moreover, reducing traffic-related emissions of NMHCs was an effective way to control O₃ pollution at an urban site in Beijing.     

基于入户称重调研的居民春节食物消费和浪费特征

节庆期间食物消费是中国居民食物消费的重要组成,但目前缺乏对其特征结构的精准刻画。本文利用大学生网络,于2018年春节期间实地入户称重调研,获得连续3天192户1728餐居民家庭食物消费的一手数据,定量分析居民春节期间食物消费与浪费的结构和特征。研究结果表明：（1）春节期间,人均食物消费量为541.05 g/(人·餐),浪费量为30.72 g/(人·餐),浪费率为5.68%,高于非节庆时期3个百分点。（2）食物消费多为生鲜食品与平日不会每日购买的“奢侈品”,以蔬菜（21.73%）、肉类（17.77%）、大米（12.45%）、水果（8.39%）和水产类（7.88%）为主。食物浪费结构与食物消费结构相似,以蔬菜（26.20%）、肉类（21.58%）、大米（16.34%）、水产类（11.78%）和酒水（8.43%）为主。（3）春节期间,不同人口规模的家庭食物消费水平差异显著,城乡家庭、不同收入及不同人口规模的家庭食物浪费水平具有显著差异。农村家庭人均食物消费量和浪费量均高于城市家庭;经济水平高和人口规模小的家庭食物消费和浪费量更高。研究结果定量刻画了中国居民春节期间的食物消费特征,为中国《中华人民共和国反食品浪费法》中食物浪费的监测评估提供数据支撑,具有重要借鉴意义。     

Significant contribution of spring northwest transport to volatile organic compounds in Beijing

High values of ozone (O₃) occur frequently in the dry spring season; thus, understanding the evolution characteristics of volatile organic compounds (VOCs) in spring is of great significance for preventing O₃ pollution. In this study, a total of 101 VOCs from April 16 to May 21, 2019, were quantified using an online gas chromatography mass spectrometer/flame ionization detector (GCMS/FID). The results indicated that the observed concentration of total VOCs (TVOCs) was 30.4 ± 17.0 ppbv, and it was dominated by alkanes (44.3%), followed by oxygenated VOCs (OVOCs) (17.4%), halocarbons (12.7%), aromatics (9.5%), alkenes (8.2%), acetylene (5.3%) and carbon disulfide (2.5%). The average mixing ratio of VOCs showed obvious diurnal variation (high at night, low during daytime). We conducted a source apportionment study based on 32 major VOCs using positive matrix factorization (PMF), and coal + biomass burning (25.2%), diesel exhaust (16.0%), gasoline exhaust + evaporation (17.4%), secondary + long-lived species (16.7%), biogenic sources (4.3%), industrial emissions (9.3%) and solvent use (11.2%) were identified as major sources of VOCs. In addition to local emissions, most of the atmospheric VOCs were derived from long-distance air masses (65.7%), and the average mixing ratio of VOCs in the northwest direction was 29.4 ppbv. Combined with the results of the potential source contribution function (PSCF) indicate that research should focus on the local emissions of combustion, transportation sources and solvents usage to control atmospheric VOCs. Additionally, transmission of the northwest air mass is an important component that cannot be ignored during spring in Beijing.     

北京市传统春节假期空气质量特征研究

利用2013~2020年北京市传统春节假期期间主要污染物浓度、PM_2.5主要离子组分浓度及气象数据,研究近年烟花爆竹集中燃放对北京市空气质量的影响.结果表明,自2018年北京市加强对烟花爆竹燃放的管控后,空气质量显著改善,其中2019年传统春节假期中共7个优良天,占比达87.5%,且未出现中度及以上级别污染天;近3年除夕期间的PM_2.5峰值浓度显著降低,与近8年最高值相比(2016年699μg/m³),降幅分别为61.1%、74.7%和71.4%.此外,一方面,近年除夕期间SO₂、PM₁₀和PM_2.5浓度突增倍数显著降低,由2013年的1.31、1.37和0.92降低至2020年的0.08、0.14和0.02.另一方面,与烟花爆竹相关的一次离子组分浓度增长倍数及对PM_2.5及其组分的贡献率逐年降低,说明近年烟花爆竹的集中燃放对空气质量的影响缩减明显.2020年传统春节假期期间,不利的气象条件使烟花爆竹燃放污染无法完全消散,同时加剧本地污染物积累和区域污染物输送,导致出现连续3d的重污染过程.因此,严苛的禁限放措施、有利的气象条件、低水平的周边区域污染物浓度对北京市传统春节假期的空气质量至关重要.     

上海市郊春节期间大气颗粒物及其组分的粒径分布

利用电称低压冲击仪(ELPI)在线监测上海市嘉定区2009年春节前后不同粒径(50%切割粒径分别为:0.03、0.06、0.11、0.17、0.26、0.40、0.65、1.00、1.60、2.50、4.40、6.80μm)大气颗粒物的粒子数浓度变化.对比春节与非节日期间该地区大气颗粒物(<0.49、0.49—0.95、0.95—1.50、1.50—3.00、3.00—7.20、>7.20μm)中Na、Mg、Al、K、Ca、Ti、V、Cr、Mn、Fe、Co、Ni、Cu、Zn、As、Se、Pb 17种元素,F-、Cl-、NO 2-、SO24-、NO 3-、Na+、NH 4+、K+、Mg2+、Ca2+10种离子与有机碳(OC)、元素碳(EC)质量浓度的粒径分布.结果表明,春节对于大气颗粒物粒子数浓度的影响主要集中在0.11—1.60μm.如果以3.00μm为界将大气颗粒物划分成细(≤3.00μm)和粗(>3.00μm)颗粒物时,春节影响体现在细颗粒的元素为:Na、As、Pb,且主要集中于<0.49μm颗粒中;春节影响集中于大颗粒(>7.20μm)的元素为:Ni、Co;没有受到显著影响的为:Ca、V、Mn、Fe、Z...     

2019～2022年成都市春节期间烟花爆竹燃放对空气质量影响分析

基于空气质量和PM_2.5组分站观测数据,分析成都市2019～2022年春节期间烟花爆竹燃放对污染物浓度、 PM_2.5组分和二次转化的影响.结果表明,烟花爆竹燃放对SO₂、 PM_2.5和PM₁₀浓度影响显著,2019～2022年集中燃放期内小时浓度平均值分别增加6.7、 105.0和117.4μg·m^-3,升幅分别为135%、 236%和203%,集中燃放对其浓度的贡献率分别为10.0%～34.0%、28.1%～31.3%和27.8%～34.6%.烟花爆竹燃放对空气质量影响时间呈小幅下降趋势,由2019年的42h下降至2022年的38 h,但对PM_2.5浓度影响呈波动变化,2022年与2019年相当.烟花爆竹燃放主要组分为K、 Cl、 Al、 K⁺和Cl^-等,集中燃放期内这些组分浓度较高且增长较快,在PM_2.5中的占比为5%～18%,增幅为87%～1 511%,对NH     

贵阳市黔灵山泉水中26种元素的分析和评价

为考察饮用贵阳市黔灵山泉水是否对人体有益,使用ICP-MS(电感耦合等离子体质谱)对泉水中锂、铍、硼、铝、钛、钒、铬、锰、铁、钴、镍、铜、锌、镓、砷、硒、锶、钼、银、镉、锑、铯、钡、铊、铅和铀26种元素的含量进行了分析,并取自来水和市售瓶装水进行对比。结果表明:黔灵山泉水中元素含量符合国家对饮用水的要求,但其所提供的人体所需微量元素的含量与自来水和瓶装水相比并无明显优势。由于泉水不属于常规水源未对其进行日常监管,如果将黔灵山泉水作为饮用水源无明显益处,并存在一定风险。     

2017年春节期间燃放烟花爆竹对湖南省城市环境空气质量的影响研究

2017年春节期间,根据湖南省城市环境空气自动监测系统数据资料,全面分析了燃放烟花爆竹对湖南省空气质量的影响.结果表明:烟花爆竹的集中燃放会在短时间内造成严重的大气污染,14个城市在集中燃放日(大年初一)全部出现空气质量超标现象;燃放烟花爆竹对PM10和PM2.5影响最为显著,其次是SO2和CO,NO2和O3受影响程度相对最小.集中燃放烟花爆竹所引起的PM2.5和PM10浓度增幅较大,尤其是PM2.5.气象条件也是影响春节期间空气质量的重要因素.     

Structure-related distribution of PCDD/Fs, PCBs and HCB in a river-sea system

Water concentrations of PCDD/Fs, HCB, and non-ortho, mono-ortho, and non-dioxin-like PCBs were measured four times during 1 year in a coastal area of the Baltic Sea, to investigate background levels and distribution behaviour. Sampling sites included two rivers, an estuary, and the sea. Particulate and apparently dissolved concentrations were determined using active sampling (filters + PUFs), while freely dissolved concentrations were determined using passive sampling (POM-samplers). The distribution between particulate + colloidal and freely dissolved phases, in the form of TOC-normalized distribution ratios (K_TOC), was found to be near or at equilibrium. The observed K_TOC were not significantly different between sampling sites or seasons. For PCDD/Fs, the concentrations were significantly correlated to suspended particulate matter (SPM), while no correlation to organic carbon (TOC) was observed. In the estuary and the sea, PCB concentrations were correlated to TOC. The sorption of various congeners to SPM and TOC appeared to be related to both hydrophobicity and 3D-structure. The PCDD/F concentration in the sea decreased to one third in May, likely connected to the increased vertical flux of particles during the spring bloom.