广州某工业区大气中PCDD/Fs含量水平及其季节性变化特征

通过对广州某工业区大气中2,3,7,8-PCDD/Fs的季节性监测,并对大气中PCDD/Fs的浓度与季节性变化进行了分析.结果表明,该工业区大气中PCDD/Fs的浓度范围为2.33~75.4 pg·m-3,平均值为23.2 pg·m-3,毒性当量浓度I-TEQ范围为0.229~10.7 pg·m-3,平均值为2.00 pg·m-3,高于日本环境空气质量标准推荐年均值0.6 pg·m-3.该工业区PCDD/Fs浓度季节性变化明显,最高的季节为春季(37.8 pg·m-3),浓度最低的季节为夏季(13.5 pg·m-3),其次为秋季(22.3 pg·m-3)和冬季(19.1 pg·m-3);毒性当量浓度变化高低顺序为:春季(5.58 pg·m-3)>夏季(1.06 pg·m-3)>秋季(0.839 pg·m-3)>冬季(0.525 pg·m-3).降雨、季风的季节性变化可能是引起大气中PCDD/Fs浓度季节性变化的原因.     

重庆市大气二(口恶)英污染水平及季节变化

一年内分季节对重庆市不同功能区大气中二英(PCDD/Fs)污染情况进行了监测研究.结果表明,重庆市大气中PCDD/Fs浓度范围和平均值(以TEQ计)分别为0.017~0.21 pg·m-3和(0.094±0.054)pg·m-3.PCDD/Fs污染水平区域分布和季节变化明显,分别为:商住区>郊区>对照点,冬季>春季>秋季>夏季.其中,冬季时大气中的二英浓度约为夏季时的2.2~4.6倍.主成分分析结果显示,PCDD/Fs同系物分布特征季节变化明显:冬、春季时主要表现为颗粒相中的分布特征,夏、秋季节则主要表现为气相中的.相关性分析表明,PCDD/Fs异构体质量浓度与SO2、NO2、PM10和TSP等常规参数含量大都呈显著正相关,与O3则呈负相关,但未达显著性水平.这表明,重庆大气PCDD/Fs的空间分布和季节变化与SO2、NO2、PM10和TSP等环境空气质量常规指标的分布情况基本一致,重庆大气PCDD/Fs污染与常规污染物的排放源密切相关.     

Occurrence and impact of polychlorinated dibenzo-p-dioxins/dibenzofurans in the air and soil around a municipal solid waste incinerator

To assess the influence of polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans(PCDD/Fs) on the environment in the vicinity of municipal solid waste incinerators(MSWIs), we determined the levels of PCDD/Fs in air and soil samples collected around a MSWI, which is the largest in China. The International Toxicity Equivalency Quantity(I-TEQ) concentrations of PCDD/Fs in air samples were from 0.0300 to 1.03 pg I-TEQ/m~3(0.445–13.6 pg/m~3), with an average of 0.237 pg I-TEQ/m~3, while in soil samples they ranged from 0.520 to 3.40 pg I-TEQ/g(2.41–88.7 pg/g) with an average of1.49 pg I-TEQ/g. The concentrations of PCDD/Fs in air and soil samples were comparable to other areas, and Pe CDFs were the dominant contributors, which was different from stack gas homologue patterns. Multivariate statistical analysis showed that PCDD/Fs emission from the MSWI did not directly affect the profiles of PCDD/Fs in air and soils, so that vehicles and unidentified emission sources should be considered. The daily inhalation levels of PCDD/Fs for children(0.0110 to 0.392 pg I-TEQ/(kg·day) and adults(0.00600 to 0.221 pg I-TEQ/(kg·day) near the MSWI were lower than the tolerable daily intake of 1.00 to 4.00 pg WHO-TEQ/(kg·day), but in winter the values were higher than in summer. These results can be used as basic data for assessing the risk of PCDD/Fs exposure in residents living around this MSWI, and more monitoring programs and studies should be carried out around MSWIs.     

Pollution level and distribution of PCDD/PCDF congeners between vapor phase and particulate phase in winter air of Dalian,China

In December 2009, ambient air was sampled with active high-volume air samplers at two sites: on the roof of the No. l building of Dalian Jiaotong University and on the roof of the building of Dalian Meteorological Observatory. The concentrations and the congeners between vapor phase and particulate phase of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) in the air were measured. Sample analysis results showed that the concentrations of PCDD/Fs in particulate phase was higher than that in gaseous phase. The ratio of PCDD to PCDF in gaseous phase and particulate phase was lower than 0.4 in all samples. The total I-TEQ value in gaseous phase and particulate phase was 5.5 and 453.8 fg/m³ at Dalian Jiaotong University, 16.6 and 462.1 fg/m³ at Dalian Meteorological Observatory, respectively. The I-TEQ value of Dalian atmosphere was 5.5-462.1 fg/m³ which was lower than international standard, the atmospheric quality in Dalian is better.     

基于后向轨迹对城市大气中二噁英长距离迁移来源的探讨

通过对广州某商住区大气中二噁英的季节性监测,结合后向轨迹的计算,对大气中PCDD/Fs的浓度及其长距离迁移来源进行分析.结果表明:大气中二噁英浓度有季节性变化特点,其趋势为冬季(14.4 pg·m^-3)>秋季(10.0 pg·m^-3)>春季(5.54 pg·m^-3)>夏季(3.88 pg·m^-3).同时,大气中PCDD/Fs单体特征也具有季节性特点,秋冬季节七氯代、八氯代PCDD/Fs百分比高于春秋两季,春夏两季低氯代单体百分比含量高于秋冬两季.追溯采样期间该城市大气的后向轨迹,发现秋冬两季到达广州的气团主要经过湖南、湖北和江西等北方或东北方的内陆省份,而春夏两季到达广州的气团主要经过我国东海和南海海域上空.而这种变化很可能是造成广州大气中二噁英浓度季节性变化的主要原因.     

某垃圾焚烧厂投产前后周边土壤二英类化合物的分布

为研究垃圾焚烧厂运行对周边土壤二英类化合物（PCDD/Fs）含量的影响,采集了珠三角地区某垃圾焚烧厂投产前和投产后周边土壤样品,分析研究了该垃圾焚烧厂运行对周边土壤中PCDD/Fs含量和组分的变化.结果表明:①2012年（投产前）珠三角地区某垃圾焚烧厂周边土壤PCDD/Fs含量较低,范围为163~591 ng/kg（毒性当量范围为0.198~0.863 ng I-TEQ/kg,I-TEQ为国际毒性当量因子折算的毒性当量值）;2017—2019年（投产后）周边土壤PCDD/Fs含量范围为151~1.75×103 ng/kg（毒性当量范围为0.812~3.88 ng I-TEQ/kg）,与其他研究相比处于较低的水平.②投产后,距该垃圾焚烧厂较近（1.5 km）的采样点（S1）土壤PCDD/Fs含量逐年增长,在较远（5.2 km）但人口较密集的采样点（S3）土壤PCDD/Fs含量整体较高,但呈逐年下降趋势.③投产后,土壤中的17种PCDD/Fs单体组分中,毒性当量贡献率最高的单体为八氯二苯并二英（OCDD）和2,3,4,7,8-五氯二苯并呋喃（2,3,4,7,8-PeCDF）,二者毒性当量贡献率范围为15.7%~45.4%.④在同一采样点土壤PCDD/Fs单体组分年间差异不明显,但同一年份不同采样点差异明显.研究显示,目前该垃圾焚烧厂周边土壤PCDD/Fs含量较低,但仍需要长期监测其可能带来的风险.      

医疗废物焚烧厂周边环境空气中二英浓度分布及其健康风险评估

于2015-2018年冬季（12月-2月）对广东省某医疗废物焚烧厂排放烟气及焚烧设施周边2.5 km范围内6个采样点分别进行了4次烟气和环境空气样品采集,应用高分辨气相色谱/高分辨质谱（HRGC-HRMS）联用技术对二（口恶）英（PCDD/Fs）浓度水平进行监测并对其组成特征进行了分析,运用主成分分析法（PCA）对周边环境空气中二（口恶）英来源进行了初步解析,同时采用VLIER-HUMAAN模型评估其对人体的健康风险.结果表明该医疗废物焚烧厂烟气二（口恶）英毒性当量浓度为0.542~21.300 ng·Nm^-3（以I-TEQ计）,排放水平较高;周边环境空气中PCDD/Fs质量浓度和毒性当量浓度变化范围分别为0.682~196.000 pg·m^-3和0.036~17.700 pg·m^-3（以I-TEQ计）,周边环境空气中PCDD/Fs浓度明显受到排放源烟气落地点的影响.空气样品中二（口恶）英同族体及异构体分布指纹谱图与该焚烧设施排放烟气类似,空气质量浓度主要贡献单体以OCDD、1,2,3,4,6,7,8-HpCDF、OCDF以及1,2,3,4,6,7,8-HpCDD为主,主要毒性贡献单体为2,3,4,7,8-PeCDF.PCA源解析结论与指纹谱图特征分析结论基本一致,该研究区域中环境空气二（口恶）英主要来源于医疗废物焚烧烟气排放.健康风险评估结果表明,该区域人群呼吸暴露风险总体处于较为安全的水平（0.0032~0.141 pg TEQ·kg^-1·d^-1）,部分个体的呼吸暴露贡献率超过了评价限值,应引起重视.     

珠三角大气中二英污染水平与区域迁移

采用高分辨气相色谱/高分辨质谱法对珠三角地区2019年11月冬季期间和2020年8月夏季期间大气环境中17种氯取代二■英的现状水平进行了测定,并在此基础上对其空间分布、指纹特征、指示性单体和区域迁移特征也进行了分析.结果表明,夏季和冬季二■英的浓度平均值分别为1.40 pg·m^-3和5.14 pg·m^-3,而毒性当量（以I-TEQ计）平均值分别为0.087 pg·m^-3和0.076 pg·m^-3.同时,9个城市夏季和冬季二■英的空间分布不一致,这可能由各地区采样期间的气象条件和排放源的影响导致. OCDD、 1,2,3,4,6,7,8-HpCDD、 OCDF和1,2,3,4,6,7,8-HpCDF是夏季和冬季的主要指纹特征单体;而2,3,4,7,8-PeCDF和1,2,3,4,7,8-HxCDF是主要的毒性贡献单体,且贡献率越大,其与总毒性当量的线性相关性越强.由后向轨迹模拟结果发现,夏季受东南偏南季风影响,气团由海上迁移至陆地,导致夏季二■英浓度较低,且高浓度区域主要受本地排放源影响;而冬季受东北...     

医疗废物焚烧炉周边环境介质中二噁英的浓度、同系物分布与来源分析

采用高分辨气相色谱/高分辨质谱仪(HRGC/HRMS)测定了我国西北某医疗废物焚烧炉排放烟气及周边环境空气、土壤和植物样品中2,3,7,8-PCDD/Fs含量和组成,并对周边环境中二噁英来源进行了初步解析.监测结果表明烟气中二噁英毒性当量浓度(以I-TEQ计)均值为184 ng·m-3,远超医疗废物焚烧废气排放标准限值(0.5 ng·m-3),环境空气、土壤和植物样本中二噁英毒性当量浓度均值分别为7.30 pg·m-3、52.5 pg·g-1、146 pg·g-1,均处于较高的污染水平.污染源下风向上的环境空气样品中二噁英浓度明显高于上风向上样品中的浓度,下风向样品中的浓度随与污染源距离的增加呈现先升高后降低的趋势,最高浓度的样本距污染源700 m左右.烟气样品2,3,7,8-PCDD/Fs同类物单体质量浓度(毒性当量)分布特征与主导风下方向空气、土壤、植物样本中的具有较强的相似性.样本二噁英浓度空间分布特征、同类物分布特征及主成分分析数据均表明,该区域环境中二噁英主要来源于医疗废物焚烧烟气排放.     

垃圾焚烧厂周边大气二噁英含量及变化特征——以北京某城市生活垃圾焚烧发电厂为例

2013年4月至2014年1月对北京市某生活垃圾焚烧厂周边4km范围内5个采样点环境空气中二噁英含量、组成特征及季节变化特征进行了分析.结果表明该垃圾焚烧厂周边环境空气中PCDD/Fs质量浓度的变化范围为8.3~115pg/m³,毒性当量(TEQ)变化范围为0.11~1.9pg I-TEQ/m³,其中秋季1个采样点和冬季全部采样点超出日本环境空气质量标准限值(0.6pg I-TEQ/m³).1,2,3,4,6,7,8-HpCDF和OCDF均是四季空气中PCDD/Fs质量浓度的主要贡献单体,而2,3,4,7,8-PeCDF是总TEQ贡献最大的单体.空间分布特征表现为近源点位(~400m)浓度水平较高而其他点位(>1000m)浓度水平与距污染源距离远近没有显著相关性;季节变化特征表现为冬季值显著高于其他季节,分析可能与冬季采暖及大气扩散条件差导致的大气整体污染较重有关.样品中二噁英同族体及异构体分布指纹谱图与焚烧设施排放烟气存在差别,主成分分析(PCA)源解析结论与指纹谱图特征分析结论一致,体现为多种污染源共同作用的影响.二噁英呼吸暴露剂量估算结果表明该区域人群呼吸暴露风险总体处于较为安全的水平(0.034~0.161pg I-TEQ/(kg·d)),但仍需关注大气重污染天气发生时的呼吸暴露风险.     

Characteristics of air pollution by polychlorinated dibenzo-p-dioxins and dibenzofurans in the typical industrial areas of Tangshan City, China

The ambient air in vicinity of different industrial sources for PCDD/PCDFs was sampled by TSP/PM10 active samplers and passive PUF disk samplers in Tangshan City, a metropolis containing clusters of various industrial plants. The TEQ concentrations of PCDD/PCDFs ranged from 44.2 to 394.1 fg I-TEQ/m3 with an average of 169.9 fg I-TEQ/m3. 2,3,4,7,8-PeCDF was the dominant contributor to PTEQ, contributing 41% (12% to 55%), while 1,2,3,4,6,7,8-HpCDF, OCDD and OCDF were the major congeners for the total concentrations. The ratios of PPCDF/PPCDD reached 2.54 on average, suggesting that de novo synthesis in thermal processes played an important role to the airborne pollution of PCDD/PCDFs. The similarities congener profiles indicated that TSP and PM10 active sampling methods are comparable for the determination of the PCDD/PCDFs in ambient air, and the ratios of concentrations determined by the two methods suggested that the PCDD/PCDFs tended to stay in fine particles. It was found that 2,3,7,8-TCDF and OCDD were the dominating congeners in the passive PUF disks samples. Through principal components analysis, the coke industry was suggested to be a relatively high potential emission source for PCDD/PCDFs in the ambient air of Tangshan, which was possibly formed by de novo synthesis mechanism. In this study, the atmospheric impacts to the environment from di erent industrial sources could be ranked as follows (from high to low): coking, iron sintering, steel making, power generation and chlorinate alkali chemical production industries.     

北京市某垃圾焚烧厂周边大气二(口恶)英污染特征及暴露风险

2014年4月至2015年1月对北京市某生活垃圾焚烧发电厂周边6 km范围内7个采样点采集环境空气,应用高分辨气相色谱-高分辨质谱（HRGC-HRMS）联用技术对二英（PCDD/Fs）浓度水平进行监测并对其组成特征及时空特征进行了分析.结果表明该生活垃圾焚烧发电厂周边环境空气中PCDD/Fs质量浓度的变化范围为8.9~140 pg·m^-3,毒性当量（TEQ）变化范围为0.11~1.8 pg·m^-3,其中秋季霾天4个采样点和冬季全部采样点超出日本环境空气质量标准限值（TEQ：0.6 pg·m^-3）.1,2,3,4,6,7,8-HpCDF和OCDD是四季空气中PCDD/Fs质量浓度的主要贡献单体,年平均贡献率分别为20.5%和14.0%,而2,3,4,7,8-PeCDF是总TEQ贡献最大的单体,年平均贡献率为43.3%.空间分布特征表现为各采样点浓度水平与距污染源距离远近没有显著相关性;季节变化特征表现为冬季值显著高于其他季节,分析可能与冬季燃煤采暖及大气扩散条件差导致的大气颗粒物污染较重有关,与各季采样时段内大气PM₁₀和PM_2.5的平均浓度水平呈正相关相一致.样品中二英同族体及异构体分布指纹谱图与该焚烧设施排放烟气存在差别,主成分分析（PCA）源解析结论与指纹谱图特征分析结论一致.二英呼吸暴露剂量估算结果表明该区域人群呼吸暴露风险总体处于较为安全的水平[0.060~0.224 pg·（kg·d）^-1],但仍需关注大气颗粒物重污染天气发生时的呼吸暴露风险.     

广州大气二恶英污染水平及其季节变化特征

为了解广州环境空气中二恶英的污染发展趋势与季节变化, 应用高分辨率气相色谱-高分辨质谱仪(HRGC/HRMS)对广州6个区域大气样品中的17种2,3,7,8-PCDD/Fs含量进行了分析. 结果表明:2010─2011年广州大气ρ(二恶英)(以毒性当量浓度计)在112～5 620 fg/m3之间. 背景区、住宅区、商业区和交通区的大气ρ(二恶英)年均值较接近, 分别为356、323、370、461 fg/m3,范围分别为38~1 568、80~1 528、90~650、171~1 157 fg/m3; 郊区与工业区的大气ρ(二恶英)年均值相对较高, 分别为571和2 000 fg/m3,范围分别为54~2 967、265~10 676 fg/m3. 与2004─2005年广州市区环境空气污染水平相比, 市区(居住区、商业区、交通区)大气ρ(二恶英)变化不大, 而郊区和工业区的值有明显增加. 除工业区监测点外,广州秋、冬、春、夏季大气ρ(二恶英)分别为331、402、629、191 fg/m3,春季值较高与大气污染及不利气象条件在春季出现频率较高有关.      

不同垃圾焚烧设备中二英的排放特征和I-TEQ指示物的研究

分析了国内3种不同类型的垃圾焚烧设备中二英化合物的排放特征,不同PCDD/F单体与I-TEQ的相关性以及23478-PeCDF与I-TEQ的线性回归分析.得到了不同类型的垃圾焚烧设备中二英同系物的统计学分布特征.结果发现,生活垃圾、医疗垃圾和危废焚烧炉中二英（PCDD/F）同系物分布虽有一定差异,但变化不大,与生活垃圾焚烧炉和危废焚烧炉相比,医疗垃圾焚烧炉中二英同系物的分布稍有区别.在3种焚烧炉的烟道气中体积分数最大的是OCDD和1234678-HpCDF,分别为12.3％～23.0％和15.0％～19.7％;而对I-TEQ贡献最大的则是23478-PeCDF,体积分数为33.1％～34.5％,远远高于其它的PCDD/F单体.通过对不同的PCDD/F单体与I-TEQ的相关性分析发现：23478-PeCDF与I-TEQ的相关性最好,相关系数R²为0.93～0.98;而毒性最大的2378-TCDD与I-TEQ的相关性较差,R²为0.29～0.49;体积分数最大的OCDD与I-TEQ的相关性很差,R²为0.03～0.12;体积分数较大的1234678-HpCDF与I-TEQ也有较好的相关性,R²为0.62～0.87,但依然次于23478-PeCDF.通过23478-PeCDF与I-TEQ线性回归的结果发现：即使I-TEQ的浓度范围为5～6个数量级,23478-PeCDF与I-TEQ也表现出很好的线性关系,对于不同的垃圾焚烧设备,回归曲线斜率为在1.16～1.40之间,相关系数R²在0.94～0.97之间.     

Evaluation of PCDD/Fs and metals emission from a circulating fluidized bed incinerator co-combusting sewage sludge with coal

The emission characteristics of polychlorinated dibenzo-p-dioxins and dibenzofurans (PCDD/Fs) and heavy metals were evaluated during co-combustion of sewage sludge with coal from a circulating fluidized bed incinerator. The stack gas, slag and fly ash samples were sampled and analyzed. The gas-cleaning system consisted of electrostatic precipitators and a semi-dry scrubber. Results showed that the stack gas and fly ash exhibited mean dioxin levels of 9.4 pg I-TEQ/Nm 3 and 11.65 pg I-TEQ/g, respectively, and showed great similarities in congener profiles. By contrast, the slag presented a mean dioxin level of 0.15 pg I-TEQ/g and a remarkable difference in congener profiles compared with those of the stack gas and fly ash. Co-combusting sewage sludge with coal was able to reduce PCDD/Fs emissions significantly in comparison with sewage sludge mono-combustion. The leaching levels of Hg, Pb, Cd, Ni, Cr, Cu, and As in the fly ash and slag were much lower than the limits of the environmental protection standard in China. These suggest that the co-combustion of sewage sludge and coal is an advisable treatment method from an environmental perspective.     

Gas-phase and particle-phase PCDD/F congener distributions in the flue gas from an iron ore sintering plant

The activated carbon injection-circulating fluidized bed (ACI-CFB)-bag filter coupling technique was studied in an iron ore sintering plant. For comparison, the removal efficiencies under the conditions without or with ACI technology were both evaluated. It was found that the polychlorinated dibenzo-p-dioxins and dibenzofuran (PCDD/F) removal efficiency for total international toxic equivalence quantity (I-TEQ) concentration was improved from 91.61% to 97.36% when ACI was employed, revealing that ACI was very conducive to further controlling the PCDD/F emissions. Detailed congener distributions of PCDD/Fs in the gas-phase and particle-phase of the Inlet and Outlet samples were determined. Additionally, the PCDD/F distribution for the Fly ash-with ACI sample of was also studied.     

Seasonal variation and sources of derivatized phenols in atmospheric fine particulate matter in North China Plain

Qualitative and quantitative analyses of derivatized phenols in Beijing and in Xinglong were performed from 2016 to 2017 using gas chromatography-mass spectrometry.The results showed substantially more severe pollution in Beijing.Of the 14 compounds detected,the total average concentration was 100 ng/m~3 in Beijing,compared with 11.6 ng/m~3 in Xinglong.More specifically,concentration of nitro-aromatic compounds(NACs)(81.9 ng/m~3 in Beijing and 8.49 ng/m3 in Xinglong) was the highest,followed by aromatic acids(14.6 ng/m~3 in Beijing and 2.42 ng/m~3 in Xinglong) and aromatic aldehydes(3.62 ng/m~3 in Beijing and 0.681 ng/m~3 in Xinglong).In terms of seasonal variation,the highest concentrations were found for 4-nitrocatechol in winter in Beijing(79.1±63.9 ng/m~3) and 4-nitrophenol in winter in Xinglong(9.72±8.94 ng/m~3).The analysis also revealed diurnal variations across different seasons.Most compounds presented higher concentrations at night in winter because of the decreased boundary layer height and increased heating intensity.While some presented higher levels during the day,which attributed to the photo-oxidation process for summer and more biomass burning activities for autumn.Higher concentrations appeared in winter and autumn than in spring and summer,which resulted from more coal combustions and adverse meteorological conditions.The significant correlations among NACs indicated similar sources of pollution.Higher correlations presented within each subgroup than those between the subgroups.Good correlations between levoglucosan and nitrophenols,nitrocatechols,nitro salicylic acids,with correlation coefficients(r) of 0.66,0.69 and 0.69,respectively,indicating an important role of biomass burning among primary sources.     

成都市城区大气VOCs季节污染特征及来源解析

为研究成都市城区大气VOCs季节变化特征,本研究在2018年12月至2019年11月对VOCs组分进行监测,并对VOCs的浓度水平、各化学组成、化学反应活性和来源进行分析.结果表明,成都市城区春、夏、秋和冬季VOCs的平均体积分数分别为32.29×10~(-9)、 36.25×10~(-9)、 40.92×10~(-9)和49.48×10~(-9),冬季的浓度明显高于其他季节,春季和夏季的浓度水平相差不大,各季节VOCs的组分浓度水平有所差异,冬季烷烃占总VOCs的比例最大,可能受机动车排放的影响较明显;夏季和秋季含氧(氮)挥发性有机物占比远高于春、冬季,一次源的挥发排放和二次转化的生成贡献较大;成都市城区不同季节大气中VOCs平均浓度排名靠前的关键组分基本无变化,主要是C_2～C_4的烷烃、乙烯、乙炔及二氯甲烷等,可能受机动车尾气、油气挥发、溶剂使用和LPG燃料等影响明显,夏季丙酮以及乙酸乙酯等含氧有机物浓度贡献突出;根据·OH消耗速率和OFP计算可知关键活性物种主要为间/对-二甲苯、乙烯、丙烯、1-己烯、甲苯、异戊烷和正丁烷等,这些物种应该优先减排和控制;四季VOCs源解析结果显示:春、夏季温度较秋、冬季高,光照更强,PMF明显解析出天然源和二次排放贡献,同时,由于夏季温度较高,解析出油气挥发占9%;秋、冬季占比增加的源主要为机动车尾气和燃烧源,燃烧源的排放占比在25%左右,另餐饮源的排放占比在9%左右.     

电子垃圾拆解地周边土壤中二(口恶)英和二(口恶)英类多氯联苯的浓度水平

采集了电子垃圾拆解地周边125个点位的151个土壤样品,分析了土壤中4~8氯代二噁英和二噁英类多氯联苯的浓度.表层土壤样品中总二噁英的浓度范围为280~7 010 pg·g-1,平均浓度为1 380 pg·g-1.中层和深层土壤样品中总二噁英的平均浓度分别为表土的63%和38%.表土样品中二噁英毒性当量浓度(以I-TEQ计)范围为1.4~94.8 pg·g-1.根据德国关于毒性当量浓度的指导方针,125个土壤样品中只有19个(15%)可以被认为对人体健康无害,其余85%的土壤需要调查二噁英的来源.如果考虑多氯联苯对毒性当量的贡献,则有98%的土壤需要调查二噁英的来源.主因子分析被用来调查这一地区二噁英的排放源.通过对土壤中二噁英的同系物分布进行分析,发现拆解活动是这一地区热过程二噁英的主要排放源,也是这一地区土壤中二噁英的主要来源.     

Atmospheric emission characterization of a novel sludge drying and co-combustion system

A novel system combining sludge drying and co-combustion with coal was applied in disposing sludge and its atmospheric emission characteristics were tested. The system was composed of a hollow blade paddle dryer, a thermal drying exhaust gas control system, a 75 tons/hr circulating fluidized bed and a flue gas cleaning system. The emissions of NH3, SO2, CH4 and some other pollutants released from thermal drying, and pollutants such as NOx, SO2 etc. discharged by the incinerator, were all tested. Polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans （PCDD/Fs） in the flue gas from the incinerator were investigated as well. The results indicated that the concentrations of NOx and SO2 in the flue gas from the incinerator were 145 and 16 mg/m^3, respectively, and the I-TEQ concentration of 2,3,7,8-substitued PCDD/Fs was 0.023 ng I-TEQ/Nm^3. All these values were greatly lower than the emission standards of China. In addition, there was no obvious odor in the air around the sludge dryer. The results demonstrated that this drying and co-combustion system is efficient in controlling pollutants and is a feasible way for large-scale treatment of industrial sludge and sewage sludge.