2008年1月广州颗粒物数浓度污染特征

于2008年1月利用颗粒物计数器(CPC)、颗粒物在线观测仪(TEOM1400a)、自动气象站以及现时天气现象传感器(PWV22)获得了大气颗粒物中每分钟颗粒物数浓度、每30分钟PM2.5>浓度、风速、相对湿度、降雨量等气象因子以及大气能见度.结果发现,1月份能见度低于10km的天数达到25天,其中灰霾天气有17天.灰霾天气下,颗粒物敖浓度为22032±4731个/立方厘米,PM2.5,浓度为123.1±64.5 μg/m3.非灰霾和灰霾天气下颗粒物数浓度日变化趋势总体比较接近,但在13:00～16:00时段,非灰霾天气条件下颗粒物数浓度变化比较明显,而灰霾天气条件下颗粒物数浓度变化比较平缓.现测期内颗粒物教浓度与大气能见度、相对湿度、风速呈负相关,与PM2.5质量浓度、温度呈正相关.灰霾天气下颗粒物数浓度与PM2.5浓度、相对湿度的相关性系数绝对值明显高于非灰霾天气下颗粒物数浓度与这两者的相关性系数绝对值.     

2011年南京市春季大气颗粒物污染特征分析

2011年江苏省环境监测中心对南京市鼓楼、建邺、栖霞3区8个采样点采集了TSP和PM10样品,进行颗粒物质量浓度、水溶性离子、无机元素以及碳成分分析。结果表明该市春季大气颗粒物污染以PM10为主,不同区域颗粒物污染特点不一;水溶性离子以Ca2+、NO3-及SO2-4居多;无机元素以Ca、Fe、Al为主,Pb与Zn浓度较Ni与V高;市内EC浓度较高,可能与裸露堆煤场有关。有关研究结果提交南京市政府部门,供决策时参考。     

颗粒物质量浓度对大气能见度水平影响分析

通过观察不同天气条件下颗粒物质量浓度水平上升伴随大气能见度水平下降,对颗粒物质量浓度-大气能见度相关性分析,得到相关方程,根据颗粒物污染水平分析预测大气能见度,为灰霾预报提供依据.     

各国环境空气质量评价中污染物浓度表示方法比较

对不同国家在环境空气质量评价中主要污染物浓度表示方法进行了比较和分析,发现各国对于气态污染物浓度的表示方法主要有体积比浓度和质量浓度2种方法,对于颗粒物浓度的表示方法则普遍采用了质量浓度;颗粒物的质量浓度有标况浓度和实况浓度2种表示方法,在中国标况浓度和实况浓度的数值存在较大差异,在不同地区和不同季节此差异大小亦不同,一般情况下,实况浓度低于其标况浓度,且实况浓度能够更加客观反映颗粒物污染状况;建议修订中国环境空气质量标准中颗粒物浓度的表示方法,使用实际状况下的质量浓度来表示空气中颗粒物的浓度,以保证中国与其他国家之间监测数据的可比性。     

石家庄市大气颗粒物元素组分特征分析

为研究石家庄市大气颗粒物的污染特征及其来源,于2013年4—5月在主城6区分别采集TSP、PM10和PM2.5颗粒物样品,利用ICP-MS分析其中的22种元素浓度。结果表明,石家庄市城区Ca、Fe元素在各粒径颗粒物中含量都较高,PM2.5中的S、K含量较高,PM10和TSP中Mg、Al的浓度相对较高。颗粒物的主要来源为燃煤尘、道路尘和建筑尘,TSP、PM10和PM2.5具有较好的统计相关性和同源性。     

上海市浦东城区冬季颗粒物数浓度及其谱分布特征

采用APS-3321空气动力学粒径谱仪对上海市浦东城区2012年12月至2013年2月0.5~20μm大气颗粒物浓度及其谱分布进行了实时监测。结果发现,上海市浦东城区冬季大气颗粒物数浓度为360个/cm3,其中0.5~1.0μm颗粒物数为345个/cm3,占总颗粒物的95.7%;1.0~2.5μm颗粒物数为15个/cm3,占颗粒物总数的4.1%;2.5~20.0μm颗粒物数为0.6个/cm3,占颗粒物总数的0.2%。当空气质量为AQI≤50、50AQI≤100、100AQI≤200、AQI200时,颗粒物数浓度分别为77.5、243.2、522.6、868.5个/m3。随着空气污染的加重,小于PM2.5颗粒物数浓度增加显著且对总的颗粒物数浓度的贡献也有所增加,且AQI200时,PM2.5中1.0~2.5μm颗粒物数浓度贡献增幅最大;此外,不同空气质量条件下,颗粒物数浓度的日变化存在一定差异,这对于空气污染防治具有重要意义。     

鞍山市环境空气颗粒物中重金属元素分布特征

研究了鞍山市环境空气中可吸入颗粒物(PM10和PM2.5)中重金属元素分布特征,结果表明鞍山市环境空气可吸入颗粒物中Zn、Pb、Al、Cu四种金属总和所占21种元素比例近85%。重金属元素在不同粒径颗粒物中的浓度水平有明显差别,更易富集在细颗粒物PM2.5上。     

燃煤电厂排出的有害痕量元素对大气环境影响的评价

文章阐述了我国东部某燃煤电厂使用的煤在燃烧过程中元素的主要组成和分布。根据在电厂周围地区采集的大气颗粒物中主要元素的组成和模式计算结果，对燃煤电厂排出的颗粒物中有害元素给大气环境可能造成的影响进行了评价。     

典型超低排放烟气中颗粒物组分特征研究

为了解超低排放改造后工业源烟气颗粒物排放状况及其组分特征,于2020年1—5月对2家垃圾焚烧企业和2家燃煤电厂外排烟气开展了调查,同步采集外排烟气中的可过滤颗粒物（FPM）和可凝结颗粒物（CPM）,测定质量浓度及其离子组分、元素组分,对各组分浓度范围及平均值进行统计评价。结果表明：4家企业外排烟气中CPM和FPM质量浓度平均值的比值分别为30.5,10.3,3.0,0.94,CPM的排放不可忽视;离子分析结果发现,烟气处理过程中产生的铵离子和硫酸根离子等水溶性离子,在FPM中基本未检出,在CPM中检出且浓度较高;金属元素分析结果发现,检出的铬（Cr）、镍（Ni）、铅（Pb）3种元素主要存在于FPM中,而砷（As）、汞（Hg）元素则更多地存在于CPM中;CPM中水溶性离子为主要成分,以水溶性离子作为CPM排放的控制因子是可行的。     

铵盐气溶胶对烟气排放连续监测系统颗粒物比对监测的影响研究

利用拉曼光谱对采样后的滤筒进行分析,发现废气中的硫酸铵-硫酸氢铵气溶胶是造成成都市部分企业烟气排放连续监测系统(CEMS)颗粒物比对监测结果不合格的主要原因。通过比较分析得出:在对含硫酸铵-硫酸氢铵气溶胶废气进行颗粒物浓度比对监测时,参比方法(重量法)测定的颗粒物浓度是一定标干采样体积下废气中固体微粒和硫酸铵-硫酸氢铵液体微粒结晶后产生的晶体的总质量,基于光散射法的CEMS颗粒物浓度测试系统测定的颗粒物浓度只是一定标干采样体积下废气中固体微粒的质量,由此导致参比方法测出的颗粒物浓度远大于CEMS测出的浓度,造成比对误差远超出允许值范围。     

北方沙尘对江苏环境空气中可吸入颗粒物浓度的影响

利用卫星遥感数据、气象观测资料和江苏省环境空气自动站的可吸入颗粒物的监测数据,对春季中国北方的沙尘暴过程对江苏环境空气中可吸入颗粒物浓度的影响分析发现,沙尘暴所含的沙尘粒子在冷空气的引导下可能进入江苏,对环境空气中可吸入颗粒物浓度将会产生较大的影响;北方沙尘暴所携带的沙尘粒子是春季江苏空气污染的重要来源之一,是预报空气质量异常偏高的重要依据之一。     

Trace metals speciation in coastal particulate matter for marine environmental studies in Antarctica

Solid speciation of some trace metals (Pb, Cd, Fe, Mn, Cu) having environmental relevance was studied in coastal particulate sampled during the Austral Spring 2000/2001. A nearshore station situated in the Gerlache Inlet of Terra Nova Bay (Ross Sea, Antarctica) was sampled from November to February. Samples were collected using the in situ filtration system FIS500, equipped with polycarbonate membrane filters having different pore sizes (10 microm, 2 microm and 0.4 microm) for the size fraction analysis of particles. The total concentration of metals was determined both in dissolved and particulate fractions, while speciation was determined on particulate by applying a sequential extraction procedure. Concerning the surface and sub-surface layers, it has been observed that concentration of elements is mainly affected by the dynamic of the pack ice melting and by phytoplankton activity.The solid speciation in November and December is similar for all the studied elements, while some differences can be noted in February, when the pack has completely melted and phytoplankton bloom occurs. With the exception of iron, during this sampling period the quantity of metal associated to the labile fraction increases.     

Design,Modelling and Assessment of Emission Scenarios Resulting from a Network of Wood Biomass Boilers

The use of wood biomass as a fuel for domestic and industrial heating systems allows for a reduction of CO₂ emissions at a global scale, but it may also result in worse local air quality conditions, due to their emissions of particulate matter. The aim of this study is to assess the actual trend of atmospheric pollution in a study area, assuming that all heating systems are replaced by small size biomass boilers linked to the buildings through district heating network. Ground level concentrations of particulate matter, emitted by different heating systems, are therefore evaluated through numerical simulations performed by means of an atmospheric dispersion model (Sirane). As a first step, we have compared the environmental impact of a woodchip boilers network with that given by the use of traditional heating systems, i.e. wood stoves and natural gas boilers. As a second step, we have analysed the impact of such a network taking into account different emission scenarios, related to different boilers operating conditions. Results show that the environmental performances of a woodchip boilers network can be optimized by combining it with other renewable sources of energy devoted to the supply of hot water. The adopted analysis methodology can be applied to other real or hypothetic punctual sources on the territory.     

Study of size and mass distribution of particulate matter due to crop residue burning with seasonal variation in rural area of Punjab, India

Emission from field burning of agricultural crop residue is a common environmental hazard observed in northern India. It has a significant potential health risk for the rural population due to respirable suspended particulate matter (RSPM). A study on eight stage size segregated mass distribution of RSPM was done for 2 wheat and 3 rice crop seasons. The study was undertaken at rural and agricultural sites of Patiala (India) where the RSPM levels remained close to the National Ambient Air quality standards (NAAQS). Fine particulate matter (PM(2.5)) contributed almost 55% to 64% of the RSPM, showing that, in general, the smaller particles dominated during the whole study period with more contribution during the rice crop as compared to that of wheat crop residue burning. Fine particulate matter content in the total RSPM increased with decrease in temperature. Concentration levels of PM(10) and PM(2.5) were higher during the winter months as compared to that in the summer months. Background concentration levels of PM(10), PM(2.5) and PM(10-2.5) were found to be around 97 ± 21, 57 ± 15 and 40 ± 6 μg m(-3), respectively. The levels increased up to 66, 78 and 71% during rice season and 51, 43 and 61% during wheat crop residue burning, respectively. Extensive statistical analysis of the data was done by using pair t-test. Overall results show that the concentration levels of different size particulate matter are greatly affected by agricultural crop residue burning but the total distribution of the particulate matter remains almost constant.     

Monitoring particulate matter levels and climate conditions in a Greek sheep and goat livestock building

Atmospheric pollutants from livestock operations influence air quality inside livestock buildings and the air exhausted from them. The climate that prevails inside the building affects human and animal health and welfare, as well as productivity, while emissions from the building contribute to environmental pollution. The aim of this study was to examine the variation of two climatic parameters (namely temperature and relative humidity) and the levels of particulate matter of different sizes (PM10-PM2.5-PM1), as well as the relationships between them, inside a typical Greek naturally ventilated livestock building that hosts mainly sheep. The concentration of particles was recorded during a 45-day period (27/11-10/1), while temperature and relative humidity were observed during an almost 1-year period. The analysis revealed that the variation of outdoor weather conditions significantly influenced the indoor environment, as temperature and relative humidity inside the building varied in accordance to the outside climate conditions. Temperature remained higher indoors than outdoors during the winter and extremely low values were not recorded inside the building. However, the tolerable relative humidity levels recommended by the International Commission of Agricultural Engineering (CIGR) were fulfilled only in 47% of the hours during the almost 1-year period that was examined. This fact indicates that although temperature was satisfactorily controlled, the control of relative humidity was deficient. The concentration of particulate matter was increased during the cold winter days due to poor ventilation. The maximum daily average value of PM10, PM2.5 and PM1 concentration equaled to 363, 61 and 30?μg/m(3) respectively. The concentration of the coarse particles was strongly influenced by the farming activities that were daily taking place in the building, the dust resuspension being considered as the dominant source. A significant part of the fine particles were secondary, which the production of could be attributed to an increase in relative humidity levels. It is concluded that measures have to be adopted in order to achieve sufficient ventilation and to reduce particulate matter levels.     

大气颗粒物手工比对监测体系滤膜称量质控技术探讨

健全大气颗粒物手工比对监测体系是"十三五"环境空气自动监测质量管理的一项重点任务,其中颗粒物滤膜的称量直接影响手工监测数据质量。研究调研了国内各级环保部门所属环境监测机构颗粒物滤膜称量工作情况,结合国内外方法标准、技术规范等,重点探讨了称量实验室环境、称量设备、称量影响因素等滤膜称量质控要点,并针对环境管理与监测需求对大气颗粒物手工比对监测滤膜称量质控提出建议。     

灰霾期间气溶胶的污染特征

从颗粒物的时空分布和浓度水平方面综述了灰霾期间气溶胶的污染特征,介绍了灰霾期间气溶胶中金属元素、水溶性离子、有机碳和元素碳的浓度特征,以及颗粒物与能见度的相关性研究进展。指出:灰霾天气多发生在冬季,且气溶胶中PM2.5占的比重大;气溶胶污染与地理环境、气候条件、经济发展水平等有密切关系;水溶性离子多集中在PM2.5中;能见度的下降与气溶胶特别是细颗粒物有很大关系。提出目前灰霾研究中主要存在3大问题:一是对灰霾期间气溶胶中含有的有机物类别及其对不同季节发生灰霾的贡献率仍需进一步研究;二是灰霾期间气溶胶中有机物的形成机理尚不明确;三是不同源排放的气溶胶对灰霾形成的贡献率有待探讨。建议系统地开展大气细颗粒物有害成分的鉴定、源排放颗粒物的物理化学特性、扩散过程中各种物质间的反应和转化等方面的研究,为大气污染防治法规的制定提供依据。     

全程加热采样管和半程加热采样管对超净排放污染源颗粒物监测结果的影响

根据《煤电节能减排升级与改造行动计划》以及《国家环境保护"十三五"规划纲要》,我国燃煤电厂污染物排放浓度应达到现行燃气锅炉标准,现行颗粒物监测仪器需要进行更新。现在市面上有2种污染源颗粒物采样管可对改造后电厂进行颗粒物采样监测,采用平行实验法对这2种采样管所采集的颗粒物质量结果进行分析,同时使用验证实验分析2种采样管颗粒物采集质量结果产生差异的原因,并对如何提升燃煤电厂颗粒物监测的准确性提出建议。