空气污染物远程传输对海岛型城市污染的影响

为探明海岛型城市的污染成因,采用MM5/CALPUFF模型定量测算区域传输对舟山群岛大气环境的影响.结果显示,舟山在冬季主要受西北方向大陆上空高浓度污染物传输影响,上海对其外来影响最大,SO2和NO2的贡献率在71%~79%和72%~83%之间;而在夏季受偏南气流影响,浙江省对其影响最大,SO2和NO2贡献率在52%~63%和49%~55%之间.舟山群岛在高频率、高风速的持续性西北风和偏北风作用下,易形成重污染天气,各监测点NO2最大小时浓度在122~194μg/m3之间,区域传输的贡献率在98%以上.开展区域联防联控工作,才能根本改善舟山群岛环境空气质量.     

舟山本岛大气污染输送过程的数值模拟分析

利用HYSPLIT-4后向轨迹模式和NCEP(美国国家环境预报中心)的2012年GDAS(全球资料同化系统)气象数据,结合NO₂、PM_2.5、PM₁₀和SO₂等常规大气污染物的质量浓度数据,对舟山本岛2012年4月、7月、10月和12月的大气污染输送过程进行了模拟,并通过聚类分析和潜在源区分析〔包括PSCF(潜在源贡献)和CWT(浓度权重轨迹)计算〕,确定大气污染传输路径及影响源区. 结果表明:舟山本岛气流后向轨迹呈明显的季节变化特征,4月主要受来自黄海海面气流轨迹的影响,其占总轨迹数的36.7%,ρ(PM₁₀)为(53.24±24.33)μg/m3;7月以途经琉球群岛和东海气流轨迹为主,占总轨迹数的48.4%,对ρ(NO₂)、ρ(PM_2.5)、ρ(PM₁₀)和ρ(SO₂)贡献分别为(24.63±6.33)、(28.60±4.83)、(52.89±18.76)和(8.67±3.11)μg/m3;10月气流轨迹主要来自于东海海面,占总轨迹数的49.2%;12月气流则主要来自辽宁南部和黄海,占总轨迹数的66.1%,对ρ(NO₂)、ρ(PM_2.5)、ρ(PM₁₀)和ρ(SO₂)贡献分别为(28.48±15.14)、(58.71±14.10)、(69.83±38.94)和(20.83±13.28)μg/m3. 舟山本岛PM_2.5的潜在源主要为毗邻城市间局地污染,集中于浙江沿海城市及杭州湾、上海等地.      

膜吸收法脱除电厂模拟烟气中的CO2

以氨基乙酸钾、一乙醇胺和甲基二乙醇胺水溶液为吸收液,研究了聚丙烯膜接触器分离模拟烟气中CO₂的技术.分析了气液流速、吸收剂浓度、烟气CO₂浓度和吸收液CO₂负荷等对传质速率和脱除率的影响.结果表明:1mol·L^-1MEA在流速0.1m·s^-1,烟气流速0.211m·s^-1时,CO₂传质速率高达7.1mol·(m²·s)^-1;1mol·L^-1氨基乙酸钾在流速0.05m·s^-1,烟气流速0.211m·s^-1时,脱除率为93.2%;4mol·L^-1氨基乙酸钾在同样条件下脱除率达98%;而且在试验的较广烟气CO₂浓度范围内,氨基乙酸钾CO₂脱除率保持在90%以上.试验证明膜吸收法既适合目前最为普遍的PF和NGCC烟道气脱除CO₂,也是一种应用广泛、有良好发展前景的CO₂分离法.     

危险化学品在运输过程中的危险分析及控制

分析了危险化学品在运输中发生火灾爆炸的致灾因子及其危害的特点,并采用定量计算的方法给出危害的直观描述,进而提出危险化学品在运输过程中的控制措施.     

陶瓷膜处理废乳化液的实验

考察了在不同温度、不同浓缩倍数条件下陶瓷膜对废乳化液的处理效果及渗滤液通量变化情况。结果表明:温度为30℃时,CODCr和矿物油的截留率均达90%以上。此外还确定了膜的清洗方法,为实际应用提供基础数据。     

Effect of chemical dose on phosphorus removal and membrane fouling control in a UCT-MBR

Phosphorus removal was enhanced effectively by dosing aluminum sulfate and effluent phosphorus concentration was lower than 0.5 mg/L. Sludge activity was not inhibited but improved slightly with addition of aluminum sulfate. EPS concentrations both in mixed liquid and on membrane surface were decreased, contributing to the effective mitigation of membrane fouling. To enhance phosphorus removal and make the effluent meet the strict discharge level of total phosphorus (TP, 0.5 mg/L), flocculant dosing is frequently applied. In this study, the performance of aluminum sulfate dosing in a University of Cape Town Membrane Bioreactor (UCT-MBR) was investigated, in terms of the nutrients removal performance, sludge characteristics and membrane fouling. The results indicated that the addition of aluminum sulfate into the aerobic reactor continuously had significantly enhanced phosphorus removal. Moreover, COD, NH₄⁺-N and TN removal were not affected and effluent all met the first level A criteria of GB18918-2002. In addition, the addition of aluminum sulfate had improved the sludge activity slightly and reduced trans-membrane pressure (TMP) increase rate from 1.13 KPa/d to 0.57 KPa/d effectively. The membrane fouling was alleviated attributed to the increased average particle sizes and the decreased accumulation of the small sludge particles on membrane surface. Furthermore, the decline of extracellular polymeric substance (EPS) concentration in mixed sludge liquid decreased its accumulation on membrane surface, resulting in the mitigation of membrane fouling directly.     

Understand the local and regional contributions on air pollution from the view of human health impacts

• PM_2.5-related deaths were estimated to be 227 thousand in BTH & surrounding regions. • Local emissions contribute more to PM_2.5-related deaths than PM_2.5 concentration. • Local controls are underestimated if only considering its impacts on concentrations. • Rural residents suffer larger impacts of regional transport than urban residents. • Reducing regional transport benefits in mitigating environmental inequality. The source-receptor matrix of PM_2.5 concentration from local and regional sources in the Beijing-Tianjin-Hebei (BTH) and surrounding provinces has been created in previous studies. However, because the spatial distribution of concentration does not necessarily match with that of the population, such concentration-based source-receptor matrix may not fully reflect the importance of pollutant control effectiveness in reducing the PM_2.5-related health impacts. To demonstrate that, we study the source-receptor matrix of the PM_2.5-related deaths instead, with inclusion of the spatial correlations between the concentrations and the population. The advanced source apportionment numerical model combined with the integrated exposure–response functions is used for BTH and surrounding regions in 2017. We observed that the relative contribution to PM_2.5-related deaths of local emissions was 0.75% to 20.77% larger than that of PM_2.5 concentrations. Such results address the importance of local emissions control for reducing health impacts of PM_2.5 particularly for local residents. Contribution of regional transport to PM_2.5-related deaths in rural area was 22% larger than that in urban area due to the spatial pattern of regional transport which was more related to the rural population. This resulted in an environmental inequality in the sense that people staying in rural area with access to less educational resources are subjected to higher impacts from regional transport as compared with their more resourceful and knowledgeable urban compatriots. An unexpected benefit from the multi-regional joint controls is suggested for its effectiveness in reducing the regional transport of PM_2.5 pollution thus mitigating the associated environmental inequality.     

Experimental and computational assessment of 1,4-Dioxane degradation in a photo-Fenton reactive ceramic membrane filtration process

• 1,4-Dioxane was degraded via the photo-Fenton reactive membrane filtration. • Degradation efficiency and AQY were both enhanced in photocatalytic membrane. • There is a tradeoff between photocatalytic degradation and membrane permeation flux. • Degradation pathways of 1,4-Dioxane is revealed by DFT analysis. The present study evaluated a photo-Fenton reactive membrane that achieved enhanced 1,4-Dioxane removal performance. As a common organic solvent and stabilizer, 1,4-Dioxane is widely used in a variety of industrial products and poses negative environmental and health impacts. The membrane was prepared by covalently coating photocatalyst of goethite (α-FeOOH) on a ceramic porous membrane as we reported previously. The effects of UV irradiation, H₂O₂ and catalyst on the removal efficiency of 1,4-Dioxane in batch reactors were first evaluated for optimized reaction conditions, followed by a systematical investigation of 1,4-Dioxane removal in the photo-Fenton membrane filtration mode. Under optimized conditions, the 1,4-Dioxane removal rate reached up to 16% with combination of 2 mmol/L H₂O₂ and UV₃₆₅ irradiation (2000 µW/cm²) when the feed water was filtered by the photo-Fenton reactive membrane at a hydraulic retention time of 6 min. The removal efficiency and apparent quantum yield (AQY) were both enhanced in the filtration compared to the batch mode of the same photo-Fenton reaction. Moreover, the proposed degradation pathways were analyzed by density functional theory (DFT) calculations, which provided a new insight into the degradation mechanisms of 1,4-Dioxane in photo-Fenton reactions on the functionalized ceramic membrane.     

土壤垂向异质性及离子强度对全氟辛酸在饱和农田土壤中运移行为的影响

全氟和多氟化合物（Perfluoroalkyl and Polyfluoroalkyl Substances,PFASs）污染已对农田土壤-地下水环境构成严重威胁,掌握农田土壤中PFASs运移行为对准确评估其环境风险具有重要意义.本研究以全氟辛酸（Perfluorooctanoic Acid,PFOA）为代表性PFASs,选用南京市六合区水稻土为供试土壤,系统探究了土壤垂向异质性及离子强度对PFOA在不同深度农田土壤运移行为的影响.结果表明：土壤垂向异质性显著影响PFOA在不同深度饱和土壤中运移行为,土壤深度增加使PFOA运移迟滞性显著降低,原因是土壤有机质含量随深度增加而减小,PFOA与土壤间疏水作用减弱.离子强度增加导致PFOA运移阻滞性明显增强,这是由于高离子强度使土壤与PFOA间静电斥力减弱,PFOA在土壤表面吸附和解吸量均显著增加.此外,离子强度增加,上层土壤中PFOA阻滞变化程度显著大于下层土壤,表明离子强度对PFOA运移阻滞性的影响与土壤深度有关.因此,为准确预测和评估实际农田土壤中PFOA运移行为,必须考虑到土壤垂向异质性及离子强度的耦合影响.     

老龄垃圾渗滤液中溶解性有机物在SAARB和MBR处理过程的转化特征

生物法是常用的垃圾渗滤液处理工艺,然而垃圾渗滤液中有机物组成极为复杂,在生物处理过程有机物被完全去除、新产生、减少、保留和增加的5种情形不明.本文采用了超高分辨质谱电喷雾电离傅立叶变换离子回旋共振质谱从分子层面研究老龄垃圾渗滤液中溶解性有机物（DOM）分别在矿化垃圾床（SAARB）和膜生物反应器（MBR）处理过程的转化特征.结果表明,老龄垃圾渗滤液含有5000多个DOM分子式,主要由CHO、CHON、CHOS和CHONS类物质组成,分子组成十分复杂.经过SAARB和MBR处理后,出水中DOM数量分别小幅降低至4909和4864种,SAARB和MBR作为生物法对老龄垃圾渗滤液中有机物分子去除特性相似,被完全去除和减少的物质组成主要为生物可利用性较高的脂肪族类物质（H/C ≥ 1.5）、高度不饱和物质和酚类物质（0.50 ≥ AI,H/C<1.5）,这部分DOM表现出还原饱和的化学特性.新产生、保留和增加的部分物质主要是传统意义上指代的难降解有机物,其主要是高度不饱和物质和酚类物质（0.50 ≥ AI,H/C<1.5）以及芳香指数更高的多酚类物质（0.66 ≥ AI>0.50）,表现为氧化不饱和和还原不饱和的化学特性.本文揭示了老龄垃圾渗滤液在生物处理过程中DOM分子层面的转化特征,为老龄垃圾渗滤液在生物法高效处理提供理论参考.